# Basic examples for Amazon EC2 using AWS SDKs The following code examples show how to use the basics of Amazon Elastic Compute Cloud with AWS SDKs. **Contents** + [Hello Amazon EC2](example_ec2_Hello_section.md) + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Actions](service_code_examples_actions.md) + [`AcceptVpcPeeringConnection`](example_ec2_AcceptVpcPeeringConnection_section.md) + [`AllocateAddress`](example_ec2_AllocateAddress_section.md) + [`AllocateHosts`](example_ec2_AllocateHosts_section.md) + [`AssignPrivateIpAddresses`](example_ec2_AssignPrivateIpAddresses_section.md) + [`AssociateAddress`](example_ec2_AssociateAddress_section.md) + [`AssociateDhcpOptions`](example_ec2_AssociateDhcpOptions_section.md) + [`AssociateRouteTable`](example_ec2_AssociateRouteTable_section.md) + [`AttachInternetGateway`](example_ec2_AttachInternetGateway_section.md) + [`AttachNetworkInterface`](example_ec2_AttachNetworkInterface_section.md) + [`AttachVolume`](example_ec2_AttachVolume_section.md) + [`AttachVpnGateway`](example_ec2_AttachVpnGateway_section.md) + [`AuthorizeSecurityGroupEgress`](example_ec2_AuthorizeSecurityGroupEgress_section.md) + [`AuthorizeSecurityGroupIngress`](example_ec2_AuthorizeSecurityGroupIngress_section.md) + [`CancelCapacityReservation`](example_ec2_CancelCapacityReservation_section.md) + [`CancelImportTask`](example_ec2_CancelImportTask_section.md) + [`CancelSpotFleetRequests`](example_ec2_CancelSpotFleetRequests_section.md) + [`CancelSpotInstanceRequests`](example_ec2_CancelSpotInstanceRequests_section.md) + [`ConfirmProductInstance`](example_ec2_ConfirmProductInstance_section.md) + [`CopyImage`](example_ec2_CopyImage_section.md) + [`CopySnapshot`](example_ec2_CopySnapshot_section.md) + [`CreateCapacityReservation`](example_ec2_CreateCapacityReservation_section.md) + [`CreateCustomerGateway`](example_ec2_CreateCustomerGateway_section.md) + [`CreateDhcpOptions`](example_ec2_CreateDhcpOptions_section.md) + [`CreateFlowLogs`](example_ec2_CreateFlowLogs_section.md) + [`CreateImage`](example_ec2_CreateImage_section.md) + [`CreateInstanceExportTask`](example_ec2_CreateInstanceExportTask_section.md) + [`CreateInternetGateway`](example_ec2_CreateInternetGateway_section.md) + [`CreateKeyPair`](example_ec2_CreateKeyPair_section.md) + [`CreateLaunchTemplate`](example_ec2_CreateLaunchTemplate_section.md) + [`CreateNetworkAcl`](example_ec2_CreateNetworkAcl_section.md) + [`CreateNetworkAclEntry`](example_ec2_CreateNetworkAclEntry_section.md) + [`CreateNetworkInterface`](example_ec2_CreateNetworkInterface_section.md) + [`CreatePlacementGroup`](example_ec2_CreatePlacementGroup_section.md) + [`CreateRoute`](example_ec2_CreateRoute_section.md) + [`CreateRouteTable`](example_ec2_CreateRouteTable_section.md) + [`CreateSecurityGroup`](example_ec2_CreateSecurityGroup_section.md) + [`CreateSnapshot`](example_ec2_CreateSnapshot_section.md) + [`CreateSpotDatafeedSubscription`](example_ec2_CreateSpotDatafeedSubscription_section.md) + [`CreateSubnet`](example_ec2_CreateSubnet_section.md) + [`CreateTags`](example_ec2_CreateTags_section.md) + [`CreateVolume`](example_ec2_CreateVolume_section.md) + [`CreateVpc`](example_ec2_CreateVpc_section.md) + [`CreateVpcEndpoint`](example_ec2_CreateVpcEndpoint_section.md) + [`CreateVpnConnection`](example_ec2_CreateVpnConnection_section.md) + [`CreateVpnConnectionRoute`](example_ec2_CreateVpnConnectionRoute_section.md) + [`CreateVpnGateway`](example_ec2_CreateVpnGateway_section.md) + [`DeleteCustomerGateway`](example_ec2_DeleteCustomerGateway_section.md) + [`DeleteDhcpOptions`](example_ec2_DeleteDhcpOptions_section.md) + [`DeleteFlowLogs`](example_ec2_DeleteFlowLogs_section.md) + [`DeleteInternetGateway`](example_ec2_DeleteInternetGateway_section.md) + [`DeleteKeyPair`](example_ec2_DeleteKeyPair_section.md) + [`DeleteLaunchTemplate`](example_ec2_DeleteLaunchTemplate_section.md) + [`DeleteNetworkAcl`](example_ec2_DeleteNetworkAcl_section.md) + [`DeleteNetworkAclEntry`](example_ec2_DeleteNetworkAclEntry_section.md) + [`DeleteNetworkInterface`](example_ec2_DeleteNetworkInterface_section.md) + [`DeletePlacementGroup`](example_ec2_DeletePlacementGroup_section.md) + [`DeleteRoute`](example_ec2_DeleteRoute_section.md) + [`DeleteRouteTable`](example_ec2_DeleteRouteTable_section.md) + [`DeleteSecurityGroup`](example_ec2_DeleteSecurityGroup_section.md) + [`DeleteSnapshot`](example_ec2_DeleteSnapshot_section.md) + [`DeleteSpotDatafeedSubscription`](example_ec2_DeleteSpotDatafeedSubscription_section.md) + [`DeleteSubnet`](example_ec2_DeleteSubnet_section.md) + [`DeleteTags`](example_ec2_DeleteTags_section.md) + [`DeleteVolume`](example_ec2_DeleteVolume_section.md) + [`DeleteVpc`](example_ec2_DeleteVpc_section.md) + [`DeleteVpcEndpoints`](example_ec2_DeleteVpcEndpoints_section.md) + [`DeleteVpnConnection`](example_ec2_DeleteVpnConnection_section.md) + [`DeleteVpnConnectionRoute`](example_ec2_DeleteVpnConnectionRoute_section.md) + [`DeleteVpnGateway`](example_ec2_DeleteVpnGateway_section.md) + [`DeregisterImage`](example_ec2_DeregisterImage_section.md) + [`DescribeAccountAttributes`](example_ec2_DescribeAccountAttributes_section.md) + [`DescribeAddresses`](example_ec2_DescribeAddresses_section.md) + [`DescribeAvailabilityZones`](example_ec2_DescribeAvailabilityZones_section.md) + [`DescribeBundleTasks`](example_ec2_DescribeBundleTasks_section.md) + [`DescribeCapacityReservations`](example_ec2_DescribeCapacityReservations_section.md) + [`DescribeCustomerGateways`](example_ec2_DescribeCustomerGateways_section.md) + [`DescribeDhcpOptions`](example_ec2_DescribeDhcpOptions_section.md) + [`DescribeFlowLogs`](example_ec2_DescribeFlowLogs_section.md) + [`DescribeHostReservationOfferings`](example_ec2_DescribeHostReservationOfferings_section.md) + [`DescribeHosts`](example_ec2_DescribeHosts_section.md) + [`DescribeIamInstanceProfileAssociations`](example_ec2_DescribeIamInstanceProfileAssociations_section.md) + [`DescribeIdFormat`](example_ec2_DescribeIdFormat_section.md) + [`DescribeIdentityIdFormat`](example_ec2_DescribeIdentityIdFormat_section.md) + [`DescribeImageAttribute`](example_ec2_DescribeImageAttribute_section.md) + [`DescribeImages`](example_ec2_DescribeImages_section.md) + [`DescribeImportImageTasks`](example_ec2_DescribeImportImageTasks_section.md) + [`DescribeImportSnapshotTasks`](example_ec2_DescribeImportSnapshotTasks_section.md) + [`DescribeInstanceAttribute`](example_ec2_DescribeInstanceAttribute_section.md) + [`DescribeInstanceStatus`](example_ec2_DescribeInstanceStatus_section.md) + [`DescribeInstanceTypes`](example_ec2_DescribeInstanceTypes_section.md) + [`DescribeInstances`](example_ec2_DescribeInstances_section.md) + [`DescribeInternetGateways`](example_ec2_DescribeInternetGateways_section.md) + [`DescribeKeyPairs`](example_ec2_DescribeKeyPairs_section.md) + [`DescribeNetworkAcls`](example_ec2_DescribeNetworkAcls_section.md) + [`DescribeNetworkInterfaceAttribute`](example_ec2_DescribeNetworkInterfaceAttribute_section.md) + [`DescribeNetworkInterfaces`](example_ec2_DescribeNetworkInterfaces_section.md) + [`DescribePlacementGroups`](example_ec2_DescribePlacementGroups_section.md) + [`DescribePrefixLists`](example_ec2_DescribePrefixLists_section.md) + [`DescribeRegions`](example_ec2_DescribeRegions_section.md) + [`DescribeRouteTables`](example_ec2_DescribeRouteTables_section.md) + [`DescribeScheduledInstanceAvailability`](example_ec2_DescribeScheduledInstanceAvailability_section.md) + [`DescribeScheduledInstances`](example_ec2_DescribeScheduledInstances_section.md) + [`DescribeSecurityGroups`](example_ec2_DescribeSecurityGroups_section.md) + [`DescribeSnapshotAttribute`](example_ec2_DescribeSnapshotAttribute_section.md) + [`DescribeSnapshots`](example_ec2_DescribeSnapshots_section.md) + [`DescribeSpotDatafeedSubscription`](example_ec2_DescribeSpotDatafeedSubscription_section.md) + [`DescribeSpotFleetInstances`](example_ec2_DescribeSpotFleetInstances_section.md) + [`DescribeSpotFleetRequestHistory`](example_ec2_DescribeSpotFleetRequestHistory_section.md) + [`DescribeSpotFleetRequests`](example_ec2_DescribeSpotFleetRequests_section.md) + [`DescribeSpotInstanceRequests`](example_ec2_DescribeSpotInstanceRequests_section.md) + [`DescribeSpotPriceHistory`](example_ec2_DescribeSpotPriceHistory_section.md) + [`DescribeSubnets`](example_ec2_DescribeSubnets_section.md) + [`DescribeTags`](example_ec2_DescribeTags_section.md) + [`DescribeVolumeAttribute`](example_ec2_DescribeVolumeAttribute_section.md) + [`DescribeVolumeStatus`](example_ec2_DescribeVolumeStatus_section.md) + [`DescribeVolumes`](example_ec2_DescribeVolumes_section.md) + [`DescribeVpcAttribute`](example_ec2_DescribeVpcAttribute_section.md) + [`DescribeVpcClassicLink`](example_ec2_DescribeVpcClassicLink_section.md) + [`DescribeVpcClassicLinkDnsSupport`](example_ec2_DescribeVpcClassicLinkDnsSupport_section.md) + [`DescribeVpcEndpointServices`](example_ec2_DescribeVpcEndpointServices_section.md) + [`DescribeVpcEndpoints`](example_ec2_DescribeVpcEndpoints_section.md) + [`DescribeVpcs`](example_ec2_DescribeVpcs_section.md) + [`DescribeVpnConnections`](example_ec2_DescribeVpnConnections_section.md) + [`DescribeVpnGateways`](example_ec2_DescribeVpnGateways_section.md) + [`DetachInternetGateway`](example_ec2_DetachInternetGateway_section.md) + [`DetachNetworkInterface`](example_ec2_DetachNetworkInterface_section.md) + [`DetachVolume`](example_ec2_DetachVolume_section.md) + [`DetachVpnGateway`](example_ec2_DetachVpnGateway_section.md) + [`DisableVgwRoutePropagation`](example_ec2_DisableVgwRoutePropagation_section.md) + [`DisableVpcClassicLink`](example_ec2_DisableVpcClassicLink_section.md) + [`DisableVpcClassicLinkDnsSupport`](example_ec2_DisableVpcClassicLinkDnsSupport_section.md) + [`DisassociateAddress`](example_ec2_DisassociateAddress_section.md) + [`DisassociateRouteTable`](example_ec2_DisassociateRouteTable_section.md) + [`EnableVgwRoutePropagation`](example_ec2_EnableVgwRoutePropagation_section.md) + [`EnableVolumeIo`](example_ec2_EnableVolumeIo_section.md) + [`EnableVpcClassicLink`](example_ec2_EnableVpcClassicLink_section.md) + [`EnableVpcClassicLinkDnsSupport`](example_ec2_EnableVpcClassicLinkDnsSupport_section.md) + [`GetConsoleOutput`](example_ec2_GetConsoleOutput_section.md) + [`GetHostReservationPurchasePreview`](example_ec2_GetHostReservationPurchasePreview_section.md) + [`GetPasswordData`](example_ec2_GetPasswordData_section.md) + [`ImportImage`](example_ec2_ImportImage_section.md) + [`ImportKeyPair`](example_ec2_ImportKeyPair_section.md) + [`ImportSnapshot`](example_ec2_ImportSnapshot_section.md) + [`ModifyCapacityReservation`](example_ec2_ModifyCapacityReservation_section.md) + [`ModifyHosts`](example_ec2_ModifyHosts_section.md) + [`ModifyIdFormat`](example_ec2_ModifyIdFormat_section.md) + [`ModifyImageAttribute`](example_ec2_ModifyImageAttribute_section.md) + [`ModifyInstanceAttribute`](example_ec2_ModifyInstanceAttribute_section.md) + [`ModifyInstanceCreditSpecification`](example_ec2_ModifyInstanceCreditSpecification_section.md) + [`ModifyNetworkInterfaceAttribute`](example_ec2_ModifyNetworkInterfaceAttribute_section.md) + [`ModifyReservedInstances`](example_ec2_ModifyReservedInstances_section.md) + [`ModifySnapshotAttribute`](example_ec2_ModifySnapshotAttribute_section.md) + [`ModifySpotFleetRequest`](example_ec2_ModifySpotFleetRequest_section.md) + [`ModifySubnetAttribute`](example_ec2_ModifySubnetAttribute_section.md) + [`ModifyVolumeAttribute`](example_ec2_ModifyVolumeAttribute_section.md) + [`ModifyVpcAttribute`](example_ec2_ModifyVpcAttribute_section.md) + [`MonitorInstances`](example_ec2_MonitorInstances_section.md) + [`MoveAddressToVpc`](example_ec2_MoveAddressToVpc_section.md) + [`PurchaseHostReservation`](example_ec2_PurchaseHostReservation_section.md) + [`PurchaseScheduledInstances`](example_ec2_PurchaseScheduledInstances_section.md) + [`RebootInstances`](example_ec2_RebootInstances_section.md) + [`RegisterImage`](example_ec2_RegisterImage_section.md) + [`RejectVpcPeeringConnection`](example_ec2_RejectVpcPeeringConnection_section.md) + [`ReleaseAddress`](example_ec2_ReleaseAddress_section.md) + [`ReleaseHosts`](example_ec2_ReleaseHosts_section.md) + [`ReplaceIamInstanceProfileAssociation`](example_ec2_ReplaceIamInstanceProfileAssociation_section.md) + [`ReplaceNetworkAclAssociation`](example_ec2_ReplaceNetworkAclAssociation_section.md) + [`ReplaceNetworkAclEntry`](example_ec2_ReplaceNetworkAclEntry_section.md) + [`ReplaceRoute`](example_ec2_ReplaceRoute_section.md) + [`ReplaceRouteTableAssociation`](example_ec2_ReplaceRouteTableAssociation_section.md) + [`ReportInstanceStatus`](example_ec2_ReportInstanceStatus_section.md) + [`RequestSpotFleet`](example_ec2_RequestSpotFleet_section.md) + [`RequestSpotInstances`](example_ec2_RequestSpotInstances_section.md) + [`ResetImageAttribute`](example_ec2_ResetImageAttribute_section.md) + [`ResetInstanceAttribute`](example_ec2_ResetInstanceAttribute_section.md) + [`ResetNetworkInterfaceAttribute`](example_ec2_ResetNetworkInterfaceAttribute_section.md) + [`ResetSnapshotAttribute`](example_ec2_ResetSnapshotAttribute_section.md) + [`RevokeSecurityGroupEgress`](example_ec2_RevokeSecurityGroupEgress_section.md) + [`RevokeSecurityGroupIngress`](example_ec2_RevokeSecurityGroupIngress_section.md) + [`RunInstances`](example_ec2_RunInstances_section.md) + [`RunScheduledInstances`](example_ec2_RunScheduledInstances_section.md) + [`StartInstances`](example_ec2_StartInstances_section.md) + [`StopInstances`](example_ec2_StopInstances_section.md) + [`TerminateInstances`](example_ec2_TerminateInstances_section.md) + [`UnassignPrivateIpAddresses`](example_ec2_UnassignPrivateIpAddresses_section.md) + [`UnmonitorInstances`](example_ec2_UnmonitorInstances_section.md) + [`UpdateSecurityGroupRuleDescriptionsIngress`](example_ec2_UpdateSecurityGroupRuleDescriptionsIngress_section.md) # Hello Amazon EC2 The following code examples show how to get started using Amazon EC2. ------ #### [ .NET ] **SDK for .NET (v4)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/EC2#code-examples). ``` namespace EC2Actions; public class HelloEc2 { /// /// HelloEc2 lists the existing security groups for the default users. /// /// Command line arguments /// Async task. static async Task Main(string[] args) { // Set up dependency injection for Amazon Elastic Compute Cloud (Amazon EC2). using var host = Microsoft.Extensions.Hosting.Host.CreateDefaultBuilder(args) .ConfigureServices((_, services) => services.AddAWSService() .AddTransient() ) .Build(); // Now the client is available for injection. var ec2Client = host.Services.GetRequiredService(); try { // Retrieve information for up to 10 Amazon EC2 security groups. var request = new DescribeSecurityGroupsRequest { MaxResults = 10 }; var securityGroups = new List(); var paginatorForSecurityGroups = ec2Client.Paginators.DescribeSecurityGroups(request); await foreach (var securityGroup in paginatorForSecurityGroups.SecurityGroups) { securityGroups.Add(securityGroup); } // Now print the security groups returned by the call to // DescribeSecurityGroupsAsync. Console.WriteLine("Welcome to the EC2 Hello Service example. " + "\nLet's list your Security Groups:"); securityGroups.ForEach(group => { Console.WriteLine( $"Security group: {group.GroupName} ID: {group.GroupId}"); }); } catch (AmazonEC2Exception ex) { Console.WriteLine($"An Amazon EC2 service error occurred while listing security groups. {ex.Message}"); } catch (Exception ex) { Console.WriteLine($"An error occurred while listing security groups. {ex.Message}"); } } } ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/DotNetSDKV4/ec2-2016-11-15/DescribeSecurityGroups) in *AWS SDK for .NET API Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2/hello_ec2#code-examples). Code for the CMakeLists.txt CMake file. ``` # Set the minimum required version of CMake for this project. cmake_minimum_required(VERSION 3.13) # Set the AWS service components used by this project. set(SERVICE_COMPONENTS ec2) # Set this project's name. project("hello_ec2") # Set the C++ standard to use to build this target. # At least C++ 11 is required for the AWS SDK for C++. set(CMAKE_CXX_STANDARD 11) # Use the MSVC variable to determine if this is a Windows build. set(WINDOWS_BUILD ${MSVC}) if (WINDOWS_BUILD) # Set the location where CMake can find the installed libraries for the AWS SDK. string(REPLACE ";" "/aws-cpp-sdk-all;" SYSTEM_MODULE_PATH "${CMAKE_SYSTEM_PREFIX_PATH}/aws-cpp-sdk-all") list(APPEND CMAKE_PREFIX_PATH ${SYSTEM_MODULE_PATH}) endif () # Find the AWS SDK for C++ package. find_package(AWSSDK REQUIRED COMPONENTS ${SERVICE_COMPONENTS}) if (WINDOWS_BUILD AND AWSSDK_INSTALL_AS_SHARED_LIBS) # Copy relevant AWS SDK for C++ libraries into the current binary directory for running and debugging. # set(BIN_SUB_DIR "/Debug") # If you are building from the command line, you may need to uncomment this # and set the proper subdirectory to the executables' location. AWSSDK_CPY_DYN_LIBS(SERVICE_COMPONENTS "" ${CMAKE_CURRENT_BINARY_DIR}${BIN_SUB_DIR}) endif () add_executable(${PROJECT_NAME} hello_ec2.cpp) target_link_libraries(${PROJECT_NAME} ${AWSSDK_LINK_LIBRARIES}) ``` Code for the hello\$1ec2.cpp source file. ``` #include #include #include #include #include /* * A "Hello EC2" starter application which initializes an Amazon Elastic Compute Cloud (Amazon EC2) client and describes * the Amazon EC2 instances. * * main function * * Usage: 'hello_ec2' * */ int main(int argc, char **argv) { (void)argc; (void)argv; Aws::SDKOptions options; // Optionally change the log level for debugging. // options.loggingOptions.logLevel = Utils::Logging::LogLevel::Debug; Aws::InitAPI(options); // Should only be called once. int result = 0; { Aws::Client::ClientConfiguration clientConfig; // Optional: Set to the AWS Region (overrides config file). // clientConfig.region = "us-east-1"; Aws::EC2::EC2Client ec2Client(clientConfig); Aws::EC2::Model::DescribeInstancesRequest request; bool header = false; bool done = false; while (!done) { Aws::EC2::Model::DescribeInstancesOutcome outcome = ec2Client.DescribeInstances(request); if (outcome.IsSuccess()) { if (!header) { std::cout << std::left << std::setw(48) << "Name" << std::setw(20) << "ID" << std::setw(25) << "Ami" << std::setw(15) << "Type" << std::setw(15) << "State" << std::setw(15) << "Monitoring" << std::endl; header = true; } const std::vector &reservations = outcome.GetResult().GetReservations(); for (const auto &reservation: reservations) { const std::vector &instances = reservation.GetInstances(); for (const auto &instance: instances) { Aws::String instanceStateString = Aws::EC2::Model::InstanceStateNameMapper::GetNameForInstanceStateName( instance.GetState().GetName()); Aws::String typeString = Aws::EC2::Model::InstanceTypeMapper::GetNameForInstanceType( instance.GetInstanceType()); Aws::String monitorString = Aws::EC2::Model::MonitoringStateMapper::GetNameForMonitoringState( instance.GetMonitoring().GetState()); Aws::String name = "Unknown"; const std::vector &tags = instance.GetTags(); auto nameIter = std::find_if(tags.cbegin(), tags.cend(), [](const Aws::EC2::Model::Tag &tag) { return tag.GetKey() == "Name"; }); if (nameIter != tags.cend()) { name = nameIter->GetValue(); } std::cout << std::setw(48) << name << std::setw(20) << instance.GetInstanceId() << std::setw(25) << instance.GetImageId() << std::setw(15) << typeString << std::setw(15) << instanceStateString << std::setw(15) << monitorString << std::endl; } } if (!outcome.GetResult().GetNextToken().empty()) { request.SetNextToken(outcome.GetResult().GetNextToken()); } else { done = true; } } else { std::cerr << "Failed to describe EC2 instances:" << outcome.GetError().GetMessage() << std::endl; result = 1; break; } } } Aws::ShutdownAPI(options); // Should only be called once. return result; } ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeSecurityGroups) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Asynchronously describes the security groups for the specified group ID. * * @param groupName the name of the security group to describe * @return a {@link CompletableFuture} that represents the asynchronous operation * of describing the security groups. The future will complete with a * {@link DescribeSecurityGroupsResponse} object that contains the * security group information. */ public CompletableFuture describeSecurityGroupArnByNameAsync(String groupName) { DescribeSecurityGroupsRequest request = DescribeSecurityGroupsRequest.builder() .groupNames(groupName) .build(); DescribeSecurityGroupsPublisher paginator = getAsyncClient().describeSecurityGroupsPaginator(request); AtomicReference groupIdRef = new AtomicReference<>(); return paginator.subscribe(response -> { response.securityGroups().stream() .filter(securityGroup -> securityGroup.groupName().equals(groupName)) .findFirst() .ifPresent(securityGroup -> groupIdRef.set(securityGroup.groupId())); }).thenApply(v -> { String groupId = groupIdRef.get(); if (groupId == null) { throw new RuntimeException("No security group found with the name: " + groupName); } return groupId; }).exceptionally(ex -> { logger.info("Failed to describe security group: " + ex.getMessage()); throw new RuntimeException("Failed to describe security group", ex); }); } ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeSecurityGroups) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { DescribeSecurityGroupsCommand, EC2Client } from "@aws-sdk/client-ec2"; // Call DescribeSecurityGroups and display the result. export const main = async () => { const client = new EC2Client(); try { const { SecurityGroups } = await client.send( new DescribeSecurityGroupsCommand({}), ); const securityGroupList = SecurityGroups.slice(0, 9) .map((sg) => ` • ${sg.GroupId}: ${sg.GroupName}`) .join("\n"); console.log( "Hello, Amazon EC2! Let's list up to 10 of your security groups:", ); console.log(securityGroupList); } catch (err) { console.error(err); } }; // Call function if run directly. import { fileURLToPath } from "node:url"; if (process.argv[1] === fileURLToPath(import.meta.url)) { main(); } ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSecurityGroupsCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun describeEC2SecurityGroups(groupId: String) { val request = DescribeSecurityGroupsRequest { groupIds = listOf(groupId) } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.describeSecurityGroups(request) response.securityGroups?.forEach { group -> println("Found Security Group with id ${group.groupId}, vpc id ${group.vpcId} and description ${group.description}") } } } ``` + For API details, see [DescribeSecurityGroups](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` def hello_ec2(ec2_client): """ Use the AWS SDK for Python (Boto3) to list the security groups in your account. This example uses the default settings specified in your shared credentials and config files. :param ec2_client: A Boto3 EC2 client. This client provides low-level access to AWS EC2 services. """ print("Hello, Amazon EC2! Let's list up to 10 of your security groups:") try: paginator = ec2_client.get_paginator("describe_security_groups") response_iterator = paginator.paginate(PaginationConfig={'MaxItems': 10}) # List only 10 security groups. logging.basicConfig(level=logging.INFO) # Enable logging. for page in response_iterator: for sg in page["SecurityGroups"]: logger.info(f"\t{sg['GroupId']}: {sg['GroupName']}") except ClientError as err: logger.error("Failed to list security groups.") if err.response["Error"]["Code"] == "AccessDeniedException": logger.error("You do not have permission to list security groups.") raise if __name__ == "__main__": hello_ec2(boto3.client("ec2")) ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSecurityGroups) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` require 'aws-sdk-ec2' require 'logger' # EC2Manager is a class responsible for managing EC2 operations # such as listing all EC2 instances in the current AWS account. class EC2Manager def initialize(client) @client = client @logger = Logger.new($stdout) end # Lists and prints all EC2 instances in the current AWS account. def list_instances @logger.info('Listing instances') instances = fetch_instances if instances.empty? @logger.info('You have no instances') else print_instances(instances) end end private # Fetches all EC2 instances using pagination. # # @return [Array] List of EC2 instances. def fetch_instances paginator = @client.describe_instances instances = [] paginator.each_page do |page| page.reservations.each do |reservation| reservation.instances.each do |instance| instances << instance end end end instances end # Prints details of the given EC2 instances. # # @param instances [Array] List of EC2 instances to print. def print_instances(instances) instances.each do |instance| @logger.info("Instance ID: #{instance.instance_id}") @logger.info("Instance Type: #{instance.instance_type}") @logger.info("Public IP: #{instance.public_ip_address}") @logger.info("Public DNS Name: #{instance.public_dns_name}") @logger.info("\n") end end end if $PROGRAM_NAME == __FILE__ ec2_client = Aws::EC2::Client.new(region: 'us-west-2') manager = EC2Manager.new(ec2_client) manager.list_instances end ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/DescribeSecurityGroups) in *AWS SDK for Ruby API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` async fn show_security_groups(client: &aws_sdk_ec2::Client, group_ids: Vec) { let response = client .describe_security_groups() .set_group_ids(Some(group_ids)) .send() .await; match response { Ok(output) => { for group in output.security_groups() { println!( "Found Security Group {} ({}), vpc id {} and description {}", group.group_name().unwrap_or("unknown"), group.group_id().unwrap_or("id-unknown"), group.vpc_id().unwrap_or("vpcid-unknown"), group.description().unwrap_or("(none)") ); } } Err(err) => { let err = err.into_service_error(); let meta = err.meta(); let message = meta.message().unwrap_or("unknown"); let code = meta.code().unwrap_or("unknown"); eprintln!("Error listing EC2 Security Groups: ({code}) {message}"); } } } ``` + For API details, see [DescribeSecurityGroups](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_security_groups) in *AWS SDK for Rust API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). The `Package.swift` file. ``` // swift-tools-version: 5.9 // // The swift-tools-version declares the minimum version of Swift required to // build this package. import PackageDescription let package = Package( name: "hello-ec2", // Let Xcode know the minimum Apple platforms supported. platforms: [ .macOS(.v13), .iOS(.v15) ], dependencies: [ // Dependencies declare other packages that this package depends on. .package( url: "https://github.com/awslabs/aws-sdk-swift", from: "1.0.0"), .package( url: "https://github.com/apple/swift-argument-parser.git", branch: "main" ) ], targets: [ // Targets are the basic building blocks of a package, defining a module or a test suite. // Targets can depend on other targets in this package and products // from dependencies. .executableTarget( name: "hello-ec2", dependencies: [ .product(name: "AWSEC2", package: "aws-sdk-swift"), .product(name: "ArgumentParser", package: "swift-argument-parser") ], path: "Sources") ] ) ``` The `entry.swift` file. ``` // An example that shows how to use the AWS SDK for Swift to perform a simple // operation using Amazon Elastic Compute Cloud (EC2). // import ArgumentParser import Foundation import AWSEC2 struct ExampleCommand: ParsableCommand { @Option(help: "The AWS Region to run AWS API calls in.") var awsRegion = "us-east-1" @Option( help: ArgumentHelp("The level of logging for the Swift SDK to perform."), completion: .list([ "critical", "debug", "error", "info", "notice", "trace", "warning" ]) ) var logLevel: String = "error" static var configuration = CommandConfiguration( commandName: "hello-ec2", abstract: """ Demonstrates a simple operation using Amazon EC2. """, discussion: """ An example showing how to make a call to Amazon EC2 using the AWS SDK for Swift. """ ) /// Return an array of strings giving the names of every security group /// the user is a member of. /// /// - Parameter ec2Client: The `EC2Client` to use when calling /// `describeSecurityGroupsPaginated()`. /// /// - Returns: An array of strings giving the names of every security /// group the user is a member of. func getSecurityGroupNames(ec2Client: EC2Client) async -> [String] { let pages = ec2Client.describeSecurityGroupsPaginated( input: DescribeSecurityGroupsInput() ) var groupNames: [String] = [] do { for try await page in pages { guard let groups = page.securityGroups else { print("*** Error: No groups returned.") continue } for group in groups { groupNames.append(group.groupName ?? "") } } } catch { print("*** Error: \(error.localizedDescription)") } return groupNames } /// Called by ``main()`` to run the bulk of the example. func runAsync() async throws { let ec2Config = try await EC2Client.EC2ClientConfiguration(region: awsRegion) let ec2Client = EC2Client(config: ec2Config) let groupNames = await getSecurityGroupNames(ec2Client: ec2Client) print("Found \(groupNames.count) security group(s):") for group in groupNames { print(" \(group)") } } } /// The program's asynchronous entry point. @main struct Main { static func main() async { let args = Array(CommandLine.arguments.dropFirst()) do { let command = try ExampleCommand.parse(args) try await command.runAsync() } catch { ExampleCommand.exit(withError: error) } } } ``` + For API details, see [DescribeSecurityGroups](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describesecuritygroups(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Learn the basics of Amazon EC2 with an AWS SDK The following code examples show how to: + Create a key pair and security group. + Select an Amazon Machine Image (AMI) and compatible instance type, then create an instance. + Stop and restart the instance. + Associate an Elastic IP address with your instance. + Connect to your instance with SSH, then clean up resources. ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). Run a scenario at a command prompt. ``` /// /// Show Amazon Elastic Compute Cloud (Amazon EC2) Basics actions. /// public class EC2Basics { public static ILogger _logger = null!; public static EC2Wrapper _ec2Wrapper = null!; public static SsmWrapper _ssmWrapper = null!; public static UiMethods _uiMethods = null!; public static string associationId = null!; public static string allocationId = null!; public static string instanceId = null!; public static string keyPairName = null!; public static string groupName = null!; public static string tempFileName = null!; public static string secGroupId = null!; public static bool isInteractive = true; /// /// Perform the actions defined for the Amazon EC2 Basics scenario. /// /// Command line arguments. /// A Task object. public static async Task Main(string[] args) { // Set up dependency injection for Amazon EC2 and Amazon Simple Systems // Management (Amazon SSM) Service. using var host = Microsoft.Extensions.Hosting.Host.CreateDefaultBuilder(args) .ConfigureServices((_, services) => services.AddAWSService() .AddAWSService() .AddTransient() .AddTransient() ) .Build(); SetUpServices(host); var uniqueName = Guid.NewGuid().ToString(); keyPairName = "mvp-example-key-pair" + uniqueName; groupName = "ec2-scenario-group" + uniqueName; var groupDescription = "A security group created for the EC2 Basics scenario."; try { // Start the scenario. _uiMethods.DisplayOverview(); _uiMethods.PressEnter(isInteractive); // Create the key pair. _uiMethods.DisplayTitle("Create RSA key pair"); Console.Write("Let's create an RSA key pair that you can be use to "); Console.WriteLine("securely connect to your EC2 instance."); var keyPair = await _ec2Wrapper.CreateKeyPair(keyPairName); // Save key pair information to a temporary file. tempFileName = _ec2Wrapper.SaveKeyPair(keyPair); Console.WriteLine( $"Created the key pair: {keyPair.KeyName} and saved it to: {tempFileName}"); string? answer = ""; if (isInteractive) { do { Console.Write("Would you like to list your existing key pairs? "); answer = Console.ReadLine(); } while (answer!.ToLower() != "y" && answer.ToLower() != "n"); } if (!isInteractive || answer == "y") { // List existing key pairs. _uiMethods.DisplayTitle("Existing key pairs"); // Passing an empty string to the DescribeKeyPairs method will return // a list of all existing key pairs. var keyPairs = await _ec2Wrapper.DescribeKeyPairs(""); keyPairs.ForEach(kp => { Console.WriteLine( $"{kp.KeyName} created at: {kp.CreateTime} Fingerprint: {kp.KeyFingerprint}"); }); } _uiMethods.PressEnter(isInteractive); // Create the security group. Console.WriteLine( "Let's create a security group to manage access to your instance."); secGroupId = await _ec2Wrapper.CreateSecurityGroup(groupName, groupDescription); Console.WriteLine( "Let's add rules to allow all HTTP and HTTPS inbound traffic and to allow SSH only from your current IP address."); _uiMethods.DisplayTitle("Security group information"); var secGroups = await _ec2Wrapper.DescribeSecurityGroups(secGroupId); Console.WriteLine($"Created security group {groupName} in your default VPC."); secGroups.ForEach(group => { _ec2Wrapper.DisplaySecurityGroupInfoAsync(group); }); _uiMethods.PressEnter(isInteractive); Console.WriteLine( "Now we'll authorize the security group we just created so that it can"); Console.WriteLine("access the EC2 instances you create."); await _ec2Wrapper.AuthorizeSecurityGroupIngress(groupName); secGroups = await _ec2Wrapper.DescribeSecurityGroups(secGroupId); Console.WriteLine($"Now let's look at the permissions again."); secGroups.ForEach(group => { _ec2Wrapper.DisplaySecurityGroupInfoAsync(group); }); _uiMethods.PressEnter(isInteractive); // Get list of available Amazon Linux 2 Amazon Machine Images (AMIs). var parameters = await _ssmWrapper.GetParametersByPath( "/aws/service/ami-amazon-linux-latest"); List imageIds = parameters.Select(param => param.Value).ToList(); var images = await _ec2Wrapper.DescribeImages(imageIds); var i = 1; images.ForEach(image => { Console.WriteLine($"\t{i++}\t{image.Description}"); }); int choice = 1; bool validNumber = false; if (isInteractive) { do { Console.Write("Please select an image: "); var selImage = Console.ReadLine(); validNumber = int.TryParse(selImage, out choice); } while (!validNumber); } var selectedImage = images[choice - 1]; // Display available instance types. _uiMethods.DisplayTitle("Instance Types"); var instanceTypes = await _ec2Wrapper.DescribeInstanceTypes(selectedImage.Architecture); i = 1; instanceTypes.ForEach(instanceType => { Console.WriteLine($"\t{i++}\t{instanceType.InstanceType}"); }); if (isInteractive) { do { Console.Write("Please select an instance type: "); var selImage = Console.ReadLine(); validNumber = int.TryParse(selImage, out choice); } while (!validNumber); } var selectedInstanceType = instanceTypes[choice - 1].InstanceType; // Create an EC2 instance. _uiMethods.DisplayTitle("Creating an EC2 Instance"); instanceId = await _ec2Wrapper.RunInstances(selectedImage.ImageId, selectedInstanceType, keyPairName, secGroupId); _uiMethods.PressEnter(isInteractive); var instance = await _ec2Wrapper.DescribeInstance(instanceId); _uiMethods.DisplayTitle("New Instance Information"); _ec2Wrapper.DisplayInstanceInformation(instance); Console.WriteLine( "\nYou can use SSH to connect to your instance. For example:"); Console.WriteLine( $"\tssh -i {tempFileName} ec2-user@{instance.PublicIpAddress}"); _uiMethods.PressEnter(isInteractive); Console.WriteLine( "Now we'll stop the instance and then start it again to see what's changed."); await _ec2Wrapper.StopInstances(instanceId); Console.WriteLine("Now let's start it up again."); await _ec2Wrapper.StartInstances(instanceId); Console.WriteLine("\nLet's see what changed."); instance = await _ec2Wrapper.DescribeInstance(instanceId); _uiMethods.DisplayTitle("New Instance Information"); _ec2Wrapper.DisplayInstanceInformation(instance); Console.WriteLine("\nNotice the change in the SSH information:"); Console.WriteLine( $"\tssh -i {tempFileName} ec2-user@{instance.PublicIpAddress}"); _uiMethods.PressEnter(isInteractive); Console.WriteLine( "Now we will stop the instance again. Then we will create and associate an"); Console.WriteLine("Elastic IP address to use with our instance."); await _ec2Wrapper.StopInstances(instanceId); _uiMethods.PressEnter(isInteractive); _uiMethods.DisplayTitle("Allocate Elastic IP address"); Console.WriteLine( "You can allocate an Elastic IP address and associate it with your instance\nto keep a consistent IP address even when your instance restarts."); var allocationResponse = await _ec2Wrapper.AllocateAddress(); allocationId = allocationResponse.AllocationId; Console.WriteLine( "Now we will associate the Elastic IP address with our instance."); associationId = await _ec2Wrapper.AssociateAddress(allocationId, instanceId); // Start the instance again. Console.WriteLine("Now let's start the instance again."); await _ec2Wrapper.StartInstances(instanceId); Console.WriteLine("\nLet's see what changed."); instance = await _ec2Wrapper.DescribeInstance(instanceId); _uiMethods.DisplayTitle("Instance information"); _ec2Wrapper.DisplayInstanceInformation(instance); Console.WriteLine("\nHere is the SSH information:"); Console.WriteLine( $"\tssh -i {tempFileName} ec2-user@{instance.PublicIpAddress}"); Console.WriteLine("Let's stop and start the instance again."); _uiMethods.PressEnter(isInteractive); await _ec2Wrapper.StopInstances(instanceId); Console.WriteLine("\nThe instance has stopped."); Console.WriteLine("Now let's start it up again."); await _ec2Wrapper.StartInstances(instanceId); instance = await _ec2Wrapper.DescribeInstance(instanceId); _uiMethods.DisplayTitle("New Instance Information"); _ec2Wrapper.DisplayInstanceInformation(instance); Console.WriteLine("Note that the IP address did not change this time."); _uiMethods.PressEnter(isInteractive); await Cleanup(); } catch (Exception ex) { _logger.LogError(ex, "There was a problem with the scenario, starting cleanup."); await Cleanup(); } _uiMethods.DisplayTitle("EC2 Basics Scenario completed."); _uiMethods.PressEnter(isInteractive); } /// /// Set up the services and logging. /// /// public static void SetUpServices(IHost host) { var loggerFactory = LoggerFactory.Create(builder => { builder.AddConsole(); }); _logger = new Logger(loggerFactory); // Now the client is available for injection. _ec2Wrapper = host.Services.GetRequiredService(); _ssmWrapper = host.Services.GetRequiredService(); _uiMethods = new UiMethods(); } /// /// Clean up any resources from the scenario. /// /// public static async Task Cleanup() { _uiMethods.DisplayTitle("Clean up resources"); Console.WriteLine("Now let's clean up the resources we created."); Console.WriteLine("Disassociate the Elastic IP address and release it."); // Disassociate the Elastic IP address. await _ec2Wrapper.DisassociateIp(associationId); // Delete the Elastic IP address. await _ec2Wrapper.ReleaseAddress(allocationId); // Terminate the instance. Console.WriteLine("Terminating the instance we created."); await _ec2Wrapper.TerminateInstances(instanceId); // Delete the security group. Console.WriteLine($"Deleting the Security Group: {groupName}."); await _ec2Wrapper.DeleteSecurityGroup(secGroupId); // Delete the RSA key pair. Console.WriteLine($"Deleting the key pair: {keyPairName}"); await _ec2Wrapper.DeleteKeyPair(keyPairName); Console.WriteLine("Deleting the temporary file with the key information."); _ec2Wrapper.DeleteTempFile(tempFileName); _uiMethods.PressEnter(isInteractive); } } ``` Define a class that wraps EC2 actions. ``` /// /// Methods of this class perform Amazon Elastic Compute Cloud (Amazon EC2). /// public class EC2Wrapper { private readonly IAmazonEC2 _amazonEC2; private readonly ILogger _logger; /// /// Constructor for the EC2Wrapper class. /// /// The injected EC2 client. /// The injected logger. public EC2Wrapper(IAmazonEC2 amazonService, ILogger logger) { _amazonEC2 = amazonService; _logger = logger; } /// /// Allocates an Elastic IP address that can be associated with an Amazon EC2 // instance. By using an Elastic IP address, you can keep the public IP address // constant even when you restart the associated instance. /// /// The response object for the allocated address. public async Task AllocateAddress() { var request = new AllocateAddressRequest(); try { var response = await _amazonEC2.AllocateAddressAsync(request); Console.WriteLine($"Allocated IP: {response.PublicIp} with allocation ID {response.AllocationId}."); return response; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "AddressLimitExceeded") { // For more information on Elastic IP address quotas, see: // https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html#using-instance-addressing-limit _logger.LogError($"Unable to allocate Elastic IP, address limit exceeded. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError($"An error occurred while allocating Elastic IP.: {ex.Message}"); throw; } } /// /// Associates an Elastic IP address with an instance. When this association is /// created, the Elastic IP's public IP address is immediately used as the public /// IP address of the associated instance. /// /// The allocation Id of an Elastic IP address. /// The instance Id of the EC2 instance to /// associate the address with. /// The association Id that represents /// the association of the Elastic IP address with an instance. public async Task AssociateAddress(string allocationId, string instanceId) { try { var request = new AssociateAddressRequest { AllocationId = allocationId, InstanceId = instanceId }; var response = await _amazonEC2.AssociateAddressAsync(request); return response.AssociationId; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceId") { _logger.LogError( $"InstanceId is invalid, unable to associate address. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while associating the Elastic IP.: {ex.Message}"); throw; } } /// /// Authorize the local computer ingress to EC2 instances associated /// with the virtual private cloud (VPC) security group. /// /// The name of the security group. /// A Boolean value indicating the success of the action. public async Task AuthorizeSecurityGroupIngress(string groupName) { try { // Get the IP address for the local computer. var ipAddress = await GetIpAddress(); Console.WriteLine($"Your IP address is: {ipAddress}"); var ipRanges = new List { new IpRange { CidrIp = $"{ipAddress}/32" } }; var permission = new IpPermission { Ipv4Ranges = ipRanges, IpProtocol = "tcp", FromPort = 22, ToPort = 22 }; var permissions = new List { permission }; var response = await _amazonEC2.AuthorizeSecurityGroupIngressAsync( new AuthorizeSecurityGroupIngressRequest(groupName, permissions)); return response.HttpStatusCode == HttpStatusCode.OK; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidPermission.Duplicate") { _logger.LogError( $"The ingress rule already exists. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while authorizing ingress.: {ex.Message}"); throw; } } /// /// Authorize the local computer for ingress to /// the Amazon EC2 SecurityGroup. /// /// The IPv4 address of the computer running the scenario. private static async Task GetIpAddress() { var httpClient = new HttpClient(); var ipString = await httpClient.GetStringAsync("https://checkip.amazonaws.com"); // The IP address is returned with a new line // character on the end. Trim off the whitespace and // return the value to the caller. return ipString.Trim(); } /// /// Create an Amazon EC2 key pair with a specified name. /// /// The name for the new key pair. /// The Amazon EC2 key pair created. public async Task CreateKeyPair(string keyPairName) { try { var request = new CreateKeyPairRequest { KeyName = keyPairName, }; var response = await _amazonEC2.CreateKeyPairAsync(request); var kp = response.KeyPair; // Return the key pair so it can be saved if needed. // Wait until the key pair exists. int retries = 5; while (retries-- > 0) { Console.WriteLine($"Checking for new KeyPair {keyPairName}..."); var keyPairs = await DescribeKeyPairs(keyPairName); if (keyPairs.Any()) { return kp; } Thread.Sleep(5000); retries--; } _logger.LogError($"Unable to find newly created KeyPair {keyPairName}."); throw new DoesNotExistException("KeyPair not found"); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidKeyPair.Duplicate") { _logger.LogError( $"A key pair called {keyPairName} already exists."); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while creating the key pair.: {ex.Message}"); throw; } } /// /// Save KeyPair information to a temporary file. /// /// The name of the key pair. /// The full path to the temporary file. public string SaveKeyPair(KeyPair keyPair) { var tempPath = Path.GetTempPath(); var tempFileName = $"{tempPath}\\{Path.GetRandomFileName()}"; var pemFileName = Path.ChangeExtension(tempFileName, "pem"); // Save the key pair to a file in a temporary folder. using var stream = new FileStream(pemFileName, FileMode.Create); using var writer = new StreamWriter(stream); writer.WriteLine(keyPair.KeyMaterial); return pemFileName; } /// /// Create an Amazon EC2 security group with a specified name and description. /// /// The name for the new security group. /// A description of the new security group. /// The group Id of the new security group. public async Task CreateSecurityGroup(string groupName, string groupDescription) { try { var response = await _amazonEC2.CreateSecurityGroupAsync( new CreateSecurityGroupRequest(groupName, groupDescription)); // Wait until the security group exists. int retries = 5; while (retries-- > 0) { var groups = await DescribeSecurityGroups(response.GroupId); if (groups.Any()) { return response.GroupId; } Thread.Sleep(5000); retries--; } _logger.LogError($"Unable to find newly created group {groupName}."); throw new DoesNotExistException("security group not found"); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "ResourceAlreadyExists") { _logger.LogError( $"A security group with the name {groupName} already exists. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while creating the security group.: {ex.Message}"); throw; } } /// /// Create a new Amazon EC2 VPC. /// /// The CIDR block for the new security group. /// The VPC Id of the new VPC. public async Task CreateVPC(string cidrBlock) { try { var response = await _amazonEC2.CreateVpcAsync(new CreateVpcRequest { CidrBlock = cidrBlock, }); Vpc vpc = response.Vpc; Console.WriteLine($"Created VPC with ID: {vpc.VpcId}."); return vpc.VpcId; } catch (AmazonEC2Exception ex) { Console.WriteLine($"Couldn't create VPC because: {ex.Message}"); return null; } } /// /// Delete an Amazon EC2 key pair. /// /// The name of the key pair to delete. /// A Boolean value indicating the success of the action. public async Task DeleteKeyPair(string keyPairName) { try { await _amazonEC2.DeleteKeyPairAsync(new DeleteKeyPairRequest(keyPairName)).ConfigureAwait(false); return true; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidKeyPair.NotFound") { _logger.LogError($"KeyPair {keyPairName} does not exist and cannot be deleted. Please verify the key pair name and try again."); } return false; } catch (Exception ex) { Console.WriteLine($"Couldn't delete the key pair because: {ex.Message}"); return false; } } /// /// Delete the temporary file where the key pair information was saved. /// /// The path to the temporary file. public void DeleteTempFile(string tempFileName) { if (File.Exists(tempFileName)) { File.Delete(tempFileName); } } /// /// Delete an Amazon EC2 security group. /// /// The name of the group to delete. /// A Boolean value indicating the success of the action. public async Task DeleteSecurityGroup(string groupId) { try { var response = await _amazonEC2.DeleteSecurityGroupAsync( new DeleteSecurityGroupRequest { GroupId = groupId }); return response.HttpStatusCode == HttpStatusCode.OK; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidGroup.NotFound") { _logger.LogError( $"Security Group {groupId} does not exist and cannot be deleted. Please verify the ID and try again."); } return false; } catch (Exception ex) { Console.WriteLine($"Couldn't delete the security group because: {ex.Message}"); return false; } } /// /// Delete an Amazon EC2 VPC. /// /// A Boolean value indicating the success of the action. public async Task DeleteVpc(string vpcId) { var request = new DeleteVpcRequest { VpcId = vpcId, }; var response = await _amazonEC2.DeleteVpcAsync(request); return response.HttpStatusCode == System.Net.HttpStatusCode.OK; } /// /// Get information about existing Amazon EC2 images. /// /// A list of image information. public async Task> DescribeImages(List? imageIds) { var request = new DescribeImagesRequest(); if (imageIds is not null) { // If the imageIds list is not null, add the list // to the request object. request.ImageIds = imageIds; } var response = await _amazonEC2.DescribeImagesAsync(request); return response.Images; } /// /// Display the information returned by DescribeImages. /// /// The list of image information to display. public void DisplayImageInfo(List images) { images.ForEach(image => { Console.WriteLine($"{image.Name} Created on: {image.CreationDate}"); }); } /// /// Get information about an Amazon EC2 instance. /// /// The instance Id of the EC2 instance. /// An EC2 instance. public async Task DescribeInstance(string instanceId) { var response = await _amazonEC2.DescribeInstancesAsync( new DescribeInstancesRequest { InstanceIds = new List { instanceId } }); return response.Reservations[0].Instances[0]; } /// /// Display EC2 instance information. /// /// The instance Id of the EC2 instance. public void DisplayInstanceInformation(Instance instance) { Console.WriteLine($"ID: {instance.InstanceId}"); Console.WriteLine($"Image ID: {instance.ImageId}"); Console.WriteLine($"{instance.InstanceType}"); Console.WriteLine($"Key Name: {instance.KeyName}"); Console.WriteLine($"VPC ID: {instance.VpcId}"); Console.WriteLine($"Public IP: {instance.PublicIpAddress}"); Console.WriteLine($"State: {instance.State.Name}"); } /// /// Get information about EC2 instances with a particular state. /// /// The name of the tag to filter on. /// The value of the tag to look for. /// True if successful. public async Task GetInstancesWithState(string state) { try { // Filters the results of the instance list. var filters = new List { new Filter { Name = $"instance-state-name", Values = new List { state, }, }, }; var request = new DescribeInstancesRequest { Filters = filters, }; Console.WriteLine($"\nShowing instances with state {state}"); var paginator = _amazonEC2.Paginators.DescribeInstances(request); await foreach (var response in paginator.Responses) { foreach (var reservation in response.Reservations) { foreach (var instance in reservation.Instances) { Console.Write($"Instance ID: {instance.InstanceId} "); Console.WriteLine($"\tCurrent State: {instance.State.Name}"); } } } return true; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidParameterValue") { _logger.LogError( $"Invalid parameter value for filtering instances."); } return false; } catch (Exception ex) { Console.WriteLine($"Couldn't list instances because: {ex.Message}"); return false; } } /// /// Describe the instance types available. /// /// A list of instance type information. public async Task> DescribeInstanceTypes(ArchitectureValues architecture) { try { var request = new DescribeInstanceTypesRequest(); var filters = new List { new Filter("processor-info.supported-architecture", new List { architecture.ToString() }) }; filters.Add(new Filter("instance-type", new() { "*.micro", "*.small" })); request.Filters = filters; var instanceTypes = new List(); var paginator = _amazonEC2.Paginators.DescribeInstanceTypes(request); await foreach (var instanceType in paginator.InstanceTypes) { instanceTypes.Add(instanceType); } return instanceTypes; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidParameterValue") { _logger.LogError( $"Parameters are invalid. Ensure architecture and size strings conform to DescribeInstanceTypes API reference."); } throw; } catch (Exception ex) { Console.WriteLine($"Couldn't delete the security group because: {ex.Message}"); throw; } } /// /// Get information about an Amazon EC2 key pair. /// /// The name of the key pair. /// A list of key pair information. public async Task> DescribeKeyPairs(string keyPairName) { try { var request = new DescribeKeyPairsRequest(); if (!string.IsNullOrEmpty(keyPairName)) { request = new DescribeKeyPairsRequest { KeyNames = new List { keyPairName } }; } var response = await _amazonEC2.DescribeKeyPairsAsync(request); return response.KeyPairs.ToList(); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidKeyPair.NotFound") { _logger.LogError( $"A key pair called {keyPairName} does not exist."); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while describing the key pair.: {ex.Message}"); throw; } } /// /// Retrieve information for one or all Amazon EC2 security group. /// /// The optional Id of a specific Amazon EC2 security group. /// A list of security group information. public async Task> DescribeSecurityGroups(string groupId) { try { var securityGroups = new List(); var request = new DescribeSecurityGroupsRequest(); if (!string.IsNullOrEmpty(groupId)) { var groupIds = new List { groupId }; request.GroupIds = groupIds; } var paginatorForSecurityGroups = _amazonEC2.Paginators.DescribeSecurityGroups(request); await foreach (var securityGroup in paginatorForSecurityGroups.SecurityGroups) { securityGroups.Add(securityGroup); } return securityGroups; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidGroup.NotFound") { _logger.LogError( $"A security group {groupId} does not exist."); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while listing security groups. {ex.Message}"); throw; } } /// /// Display the information returned by the call to /// DescribeSecurityGroupsAsync. /// /// A list of security group information. public void DisplaySecurityGroupInfoAsync(SecurityGroup securityGroup) { Console.WriteLine($"{securityGroup.GroupName}"); Console.WriteLine("Ingress permissions:"); securityGroup.IpPermissions.ForEach(permission => { Console.WriteLine($"\tFromPort: {permission.FromPort}"); Console.WriteLine($"\tIpProtocol: {permission.IpProtocol}"); Console.Write($"\tIpv4Ranges: "); permission.Ipv4Ranges.ForEach(range => { Console.Write($"{range.CidrIp} "); }); Console.WriteLine($"\n\tIpv6Ranges:"); permission.Ipv6Ranges.ForEach(range => { Console.Write($"{range.CidrIpv6} "); }); Console.Write($"\n\tPrefixListIds: "); permission.PrefixListIds.ForEach(id => Console.Write($"{id.Id} ")); Console.WriteLine($"\n\tTo Port: {permission.ToPort}"); }); Console.WriteLine("Egress permissions:"); securityGroup.IpPermissionsEgress.ForEach(permission => { Console.WriteLine($"\tFromPort: {permission.FromPort}"); Console.WriteLine($"\tIpProtocol: {permission.IpProtocol}"); Console.Write($"\tIpv4Ranges: "); permission.Ipv4Ranges.ForEach(range => { Console.Write($"{range.CidrIp} "); }); Console.WriteLine($"\n\tIpv6Ranges:"); permission.Ipv6Ranges.ForEach(range => { Console.Write($"{range.CidrIpv6} "); }); Console.Write($"\n\tPrefixListIds: "); permission.PrefixListIds.ForEach(id => Console.Write($"{id.Id} ")); Console.WriteLine($"\n\tTo Port: {permission.ToPort}"); }); } /// /// Disassociate an Elastic IP address from an EC2 instance. /// /// The association Id. /// A Boolean value indicating the success of the action. public async Task DisassociateIp(string associationId) { try { var response = await _amazonEC2.DisassociateAddressAsync( new DisassociateAddressRequest { AssociationId = associationId }); return response.HttpStatusCode == HttpStatusCode.OK; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidAssociationID.NotFound") { _logger.LogError( $"AssociationId is invalid, unable to disassociate address. {ec2Exception.Message}"); } return false; } catch (Exception ex) { _logger.LogError( $"An error occurred while disassociating the Elastic IP.: {ex.Message}"); return false; } } /// /// Reboot a specific EC2 instance. /// /// The instance Id of the instance that will be rebooted. /// Async Task. public async Task RebootInstances(string ec2InstanceId) { try { var request = new RebootInstancesRequest { InstanceIds = new List { ec2InstanceId }, }; await _amazonEC2.RebootInstancesAsync(request); // Wait for the instance to be running. Console.Write("Waiting for the instance to start."); await WaitForInstanceState(ec2InstanceId, InstanceStateName.Running); return true; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceId") { _logger.LogError( $"InstanceId {ec2InstanceId} is invalid, unable to reboot. {ec2Exception.Message}"); } return false; } catch (Exception ex) { _logger.LogError( $"An error occurred while rebooting the instance {ec2InstanceId}.: {ex.Message}"); return false; } } /// /// Release an Elastic IP address. After the Elastic IP address is released, /// it can no longer be used. /// /// The allocation Id of the Elastic IP address. /// True if successful. public async Task ReleaseAddress(string allocationId) { try { var request = new ReleaseAddressRequest { AllocationId = allocationId }; var response = await _amazonEC2.ReleaseAddressAsync(request); return response.HttpStatusCode == HttpStatusCode.OK; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidAllocationID.NotFound") { _logger.LogError( $"AllocationId {allocationId} was not found. {ec2Exception.Message}"); } return false; } catch (Exception ex) { _logger.LogError( $"An error occurred while releasing the AllocationId {allocationId}.: {ex.Message}"); return false; } } /// /// Create and run an EC2 instance. /// /// The image Id of the image used as a basis for the /// EC2 instance. /// The instance type of the EC2 instance to create. /// The name of the key pair to associate with the /// instance. /// The Id of the Amazon EC2 security group that will be /// allowed to interact with the new EC2 instance. /// The instance Id of the new EC2 instance. public async Task RunInstances(string imageId, string instanceType, string keyName, string groupId) { try { var request = new RunInstancesRequest { ImageId = imageId, InstanceType = instanceType, KeyName = keyName, MinCount = 1, MaxCount = 1, SecurityGroupIds = new List { groupId } }; var response = await _amazonEC2.RunInstancesAsync(request); var instanceId = response.Reservation.Instances[0].InstanceId; Console.Write("Waiting for the instance to start."); await WaitForInstanceState(instanceId, InstanceStateName.Running); return instanceId; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidGroupId.NotFound") { _logger.LogError( $"GroupId {groupId} was not found. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while running the instance.: {ex.Message}"); throw; } } /// /// Start an EC2 instance. /// /// The instance Id of the Amazon EC2 instance /// to start. /// Async task. public async Task StartInstances(string ec2InstanceId) { try { var request = new StartInstancesRequest { InstanceIds = new List { ec2InstanceId }, }; await _amazonEC2.StartInstancesAsync(request); Console.Write("Waiting for instance to start. "); await WaitForInstanceState(ec2InstanceId, InstanceStateName.Running); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceId") { _logger.LogError( $"InstanceId is invalid, unable to start. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while starting the instance.: {ex.Message}"); throw; } } /// /// Stop an EC2 instance. /// /// The instance Id of the EC2 instance to /// stop. /// Async task. public async Task StopInstances(string ec2InstanceId) { try { var request = new StopInstancesRequest { InstanceIds = new List { ec2InstanceId }, }; await _amazonEC2.StopInstancesAsync(request); Console.Write("Waiting for the instance to stop."); await WaitForInstanceState(ec2InstanceId, InstanceStateName.Stopped); Console.WriteLine("\nThe instance has stopped."); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceId") { _logger.LogError( $"InstanceId is invalid, unable to stop. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while stopping the instance.: {ex.Message}"); throw; } } /// /// Terminate an EC2 instance. /// /// The instance Id of the EC2 instance /// to terminate. /// Async task. public async Task> TerminateInstances(string ec2InstanceId) { try { var request = new TerminateInstancesRequest { InstanceIds = new List { ec2InstanceId } }; var response = await _amazonEC2.TerminateInstancesAsync(request); Console.Write("Waiting for the instance to terminate."); await WaitForInstanceState(ec2InstanceId, InstanceStateName.Terminated); Console.WriteLine($"\nThe instance {ec2InstanceId} has been terminated."); return response.TerminatingInstances; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceId") { _logger.LogError( $"InstanceId is invalid, unable to terminate. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while terminating the instance.: {ex.Message}"); throw; } } /// /// Wait until an EC2 instance is in a specified state. /// /// The instance Id. /// The state to wait for. /// A Boolean value indicating the success of the action. public async Task WaitForInstanceState(string instanceId, InstanceStateName stateName) { var request = new DescribeInstancesRequest { InstanceIds = new List { instanceId } }; // Wait until the instance is in the specified state. var hasState = false; do { // Wait 5 seconds. Thread.Sleep(5000); // Check for the desired state. var response = await _amazonEC2.DescribeInstancesAsync(request); var instance = response.Reservations[0].Instances[0]; hasState = instance.State.Name == stateName; Console.Write(". "); } while (!hasState); return hasState; } } ``` + For API details, see the following topics in *AWS SDK for .NET API Reference*. + [AllocateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AllocateAddress) + [AssociateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AssociateAddress) + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AuthorizeSecurityGroupIngress) + [CreateKeyPair](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateKeyPair) + [CreateSecurityGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateSecurityGroup) + [DeleteKeyPair](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteKeyPair) + [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteSecurityGroup) + [DescribeImages](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeImages) + [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstanceTypes) + [DescribeInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstances) + [DescribeKeyPairs](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeKeyPairs) + [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeSecurityGroups) + [DisassociateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DisassociateAddress) + [ReleaseAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/ReleaseAddress) + [RunInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/RunInstances) + [StartInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/StartInstances) + [StopInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/StopInstances) + [TerminateInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/TerminateInstances) + [UnmonitorInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/UnmonitorInstances) ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). Run an interactive scenario at a command prompt. ``` ############################################################################### # function get_started_with_ec2_instances # # Runs an interactive scenario that shows how to get started using EC2 instances. # # "EC2 access" permissions are needed to run this code. # # Returns: # 0 - If successful. # 1 - If an error occurred. ############################################################################### function get_started_with_ec2_instances() { # Requires version 4 for mapfile. local required_version=4.0 # Get the current Bash version # Check if BASH_VERSION is set local current_version if [[ -n "$BASH_VERSION" ]]; then # Convert BASH_VERSION to a number for comparison current_version=$BASH_VERSION else # Get the current Bash version using the bash command current_version=$(bash --version | head -n 1 | awk '{ print $4 }') fi # Convert version strings to numbers for comparison local required_version_num current_version_num required_version_num=$(echo "$required_version" | awk -F. '{ print ($1 * 10000) + ($2 * 100) + $3 }') current_version_num=$(echo "$current_version" | awk -F. '{ print ($1 * 10000) + ($2 * 100) + $3 }') # Compare versions if ((current_version_num < required_version_num)); then echo "Error: This script requires Bash version $required_version or higher." echo "Your current Bash version is number is $current_version." exit 1 fi { if [ "$EC2_OPERATIONS_SOURCED" != "True" ]; then source ./ec2_operations.sh fi } echo_repeat "*" 88 echo "Welcome to the Amazon Elastic Compute Cloud (Amazon EC2) get started with instances demo." echo_repeat "*" 88 echo echo "Let's create an RSA key pair that you can be use to securely connect to " echo "your EC2 instance." echo -n "Enter a unique name for your key: " get_input local key_name key_name=$get_input_result local temp_dir temp_dir=$(mktemp -d) local key_file_name="$temp_dir/${key_name}.pem" if ec2_create_keypair -n "${key_name}" -f "${key_file_name}"; then echo "Created a key pair $key_name and saved the private key to $key_file_name" echo else errecho "The key pair failed to create. This demo will exit." return 1 fi chmod 400 "${key_file_name}" if yes_no_input "Do you want to list some of your key pairs? (y/n) "; then local keys_and_fingerprints keys_and_fingerprints="$(ec2_describe_key_pairs)" && { local image_name_and_id while IFS=$'\n' read -r image_name_and_id; do local entries IFS=$'\t' read -ra entries <<<"$image_name_and_id" echo "Found rsa key ${entries[0]} with fingerprint:" echo " ${entries[1]}" done <<<"$keys_and_fingerprints" } fi echo_repeat "*" 88 echo_repeat "*" 88 echo "Let's create a security group to manage access to your instance." echo -n "Enter a unique name for your security group: " get_input local security_group_name security_group_name=$get_input_result local security_group_id security_group_id=$(ec2_create_security_group -n "$security_group_name" \ -d "Security group for EC2 instance") || { errecho "The security failed to create. This demo will exit." clean_up "$key_name" "$key_file_name" return 1 } echo "Security group created with ID $security_group_id" echo local public_ip public_ip=$(curl -s http://checkip.amazonaws.com) echo "Let's add a rule to allow SSH only from your current IP address." echo "Your public IP address is $public_ip" echo -n "press return to add this rule to your security group." get_input if ! ec2_authorize_security_group_ingress -g "$security_group_id" -i "$public_ip" -p tcp -f 22 -t 22; then errecho "The security group rules failed to update. This demo will exit." clean_up "$key_name" "$key_file_name" "$security_group_id" return 1 fi echo "Security group rules updated" local security_group_description security_group_description="$(ec2_describe_security_groups -g "${security_group_id}")" || { errecho "Failed to describe security groups. This demo will exit." clean_up "$key_name" "$key_file_name" "$security_group_id" return 1 } mapfile -t parameters <<<"$security_group_description" IFS=$'\t' read -ra entries <<<"${parameters[0]}" echo "Security group: ${entries[0]}" echo " ID: ${entries[1]}" echo " VPC: ${entries[2]}" echo "Inbound permissions:" IFS=$'\t' read -ra entries <<<"${parameters[1]}" echo " IpProtocol: ${entries[0]}" echo " FromPort: ${entries[1]}" echo " ToPort: ${entries[2]}" echo " CidrIp: ${parameters[2]}" local parameters parameters="$(ssm_get_parameters_by_path -p "/aws/service/ami-amazon-linux-latest")" || { errecho "Failed to get parameters. This demo will exit." clean_up "$key_name" "$key_file_name" "$security_group_id" return 1 } local image_ids="" mapfile -t parameters <<<"$parameters" for image_name_and_id in "${parameters[@]}"; do IFS=$'\t' read -ra values <<<"$image_name_and_id" if [[ "${values[0]}" == *"amzn2"* ]]; then image_ids+="${values[1]} " fi done local images images="$(ec2_describe_images -i "$image_ids")" || { errecho "Failed to describe images. This demo will exit." clean_up "$key_name" "$key_file_name" "$security_group_id" return 1 } new_line_and_tab_to_list "$images" local images=("${list_result[@]}") # Get the size of the array local images_count=${#images[@]} if ((images_count == 0)); then errecho "No images found. This demo will exit." clean_up "$key_name" "$key_file_name" "$security_group_id" return 1 fi echo_repeat "*" 88 echo_repeat "*" 88 echo "Let's create an instance from an Amazon Linux 2 AMI. Here are some options:" for ((i = 0; i < images_count; i += 3)); do echo "$(((i / 3) + 1)) - ${images[$i]}" done integer_input "Please enter the number of the AMI you want to use: " 1 "$((images_count / 3))" local choice=$get_input_result choice=$(((choice - 1) * 3)) echo "Great choice." echo local architecture=${images[$((choice + 1))]} local image_id=${images[$((choice + 2))]} echo "Here are some instance types that support the ${architecture} architecture of the image:" response="$(ec2_describe_instance_types -a "${architecture}" -t "*.micro,*.small")" || { errecho "Failed to describe instance types. This demo will exit." clean_up "$key_name" "$key_file_name" "$security_group_id" return 1 } local instance_types mapfile -t instance_types <<<"$response" # Get the size of the array local instance_types_count=${#instance_types[@]} echo "Here are some options:" for ((i = 0; i < instance_types_count; i++)); do echo "$((i + 1)) - ${instance_types[$i]}" done integer_input "Which one do you want to use? " 1 "${#instance_types[@]} " choice=$get_input_result local instance_type=${instance_types[$((choice - 1))]} echo "Another great choice." echo echo "Creating your instance and waiting for it to start..." local instance_id instance_id=$(ec2_run_instances -i "$image_id" -t "$instance_type" -k "$key_name" -s "$security_group_id") || { errecho "Failed to run instance. This demo will exit." clean_up "$key_name" "$key_file_name" "$security_group_id" return 1 } ec2_wait_for_instance_running -i "$instance_id" echo "Your instance is ready:" echo local instance_details instance_details="$(ec2_describe_instances -i "${instance_id}")" echo print_instance_details "${instance_details}" local public_ip public_ip=$(echo "${instance_details}" | awk '{print $6}') echo echo "You can use SSH to connect to your instance" echo "If the connection attempt times out, you might have to manually update the SSH ingress rule" echo "for your IP address in the AWS Management Console." connect_to_instance "$key_file_name" "$public_ip" echo -n "Press Enter when you're ready to continue the demo: " get_input echo_repeat "*" 88 echo_repeat "*" 88 echo "Let's stop and start your instance to see what changes." echo "Stopping your instance and waiting until it's stopped..." ec2_stop_instances -i "$instance_id" ec2_wait_for_instance_stopped -i "$instance_id" echo "Your instance is stopped. Restarting..." ec2_start_instances -i "$instance_id" ec2_wait_for_instance_running -i "$instance_id" echo "Your instance is running again." local instance_details instance_details="$(ec2_describe_instances -i "${instance_id}")" print_instance_details "${instance_details}" public_ip=$(echo "${instance_details}" | awk '{print $6}') echo "Every time your instance is restarted, its public IP address changes" connect_to_instance "$key_file_name" "$public_ip" echo -n "Press Enter when you're ready to continue the demo: " get_input echo_repeat "*" 88 echo_repeat "*" 88 echo "You can allocate an Elastic IP address and associate it with your instance" echo "to keep a consistent IP address even when your instance restarts." local result result=$(ec2_allocate_address -d vpc) || { errecho "Failed to allocate an address. This demo will exit." clean_up "$key_name" "$key_file_name" "$security_group_id" "$instance_id" return 1 } local elastic_ip allocation_id elastic_ip=$(echo "$result" | awk '{print $1}') allocation_id=$(echo "$result" | awk '{print $2}') echo "Allocated static Elastic IP address: $elastic_ip" local association_id association_id=$(ec2_associate_address -i "$instance_id" -a "$allocation_id") || { errecho "Failed to associate an address. This demo will exit." clean_up "$key_name" "$key_file_name" "$security_group_id" "$instance_id" "$allocation_id" return 1 } echo "Associated your Elastic IP with your instance." echo "You can now use SSH to connect to your instance by using the Elastic IP." connect_to_instance "$key_file_name" "$elastic_ip" echo -n "Press Enter when you're ready to continue the demo: " get_input echo_repeat "*" 88 echo_repeat "*" 88 echo "Let's stop and start your instance to see what changes." echo "Stopping your instance and waiting until it's stopped..." ec2_stop_instances -i "$instance_id" ec2_wait_for_instance_stopped -i "$instance_id" echo "Your instance is stopped. Restarting..." ec2_start_instances -i "$instance_id" ec2_wait_for_instance_running -i "$instance_id" echo "Your instance is running again." local instance_details instance_details="$(ec2_describe_instances -i "${instance_id}")" print_instance_details "${instance_details}" echo "Because you have associated an Elastic IP with your instance, you can" echo "connect by using a consistent IP address after the instance restarts." connect_to_instance "$key_file_name" "$elastic_ip" echo -n "Press Enter when you're ready to continue the demo: " get_input echo_repeat "*" 88 echo_repeat "*" 88 if yes_no_input "Do you want to delete the resources created in this demo: (y/n) "; then clean_up "$key_name" "$key_file_name" "$security_group_id" "$instance_id" \ "$allocation_id" "$association_id" else echo "The following resources were not deleted." echo "Key pair: $key_name" echo "Key file: $key_file_name" echo "Security group: $security_group_id" echo "Instance: $instance_id" echo "Elastic IP address: $elastic_ip" fi } ############################################################################### # function clean_up # # This function cleans up the created resources. # $1 - The name of the ec2 key pair to delete. # $2 - The name of the key file to delete. # $3 - The ID of the security group to delete. # $4 - The ID of the instance to terminate. # $5 - The ID of the elastic IP address to release. # $6 - The ID of the elastic IP address to disassociate. # # Returns: # 0 - If successful. # 1 - If an error occurred. ############################################################################### function clean_up() { local result=0 local key_pair_name=$1 local key_file_name=$2 local security_group_id=$3 local instance_id=$4 local allocation_id=$5 local association_id=$6 if [ -n "$association_id" ]; then # bashsupport disable=BP2002 if (ec2_disassociate_address -a "$association_id"); then echo "Disassociated elastic IP address with ID $association_id" else errecho "The elastic IP address disassociation failed." result=1 fi fi if [ -n "$allocation_id" ]; then # bashsupport disable=BP2002 if (ec2_release_address -a "$allocation_id"); then echo "Released elastic IP address with ID $allocation_id" else errecho "The elastic IP address release failed." result=1 fi fi if [ -n "$instance_id" ]; then # bashsupport disable=BP2002 if (ec2_terminate_instances -i "$instance_id"); then echo "Started terminating instance with ID $instance_id" ec2_wait_for_instance_terminated -i "$instance_id" else errecho "The instance terminate failed." result=1 fi fi if [ -n "$security_group_id" ]; then # bashsupport disable=BP2002 if (ec2_delete_security_group -i "$security_group_id"); then echo "Deleted security group with ID $security_group_id" else errecho "The security group delete failed." result=1 fi fi if [ -n "$key_pair_name" ]; then # bashsupport disable=BP2002 if (ec2_delete_keypair -n "$key_pair_name"); then echo "Deleted key pair named $key_pair_name" else errecho "The key pair delete failed." result=1 fi fi if [ -n "$key_file_name" ]; then rm -f "$key_file_name" fi return $result } ############################################################################### # function ssm_get_parameters_by_path # # This function retrieves one or more parameters from the AWS Systems Manager Parameter Store # by specifying a parameter path. # # Parameters: # -p parameter_path - The path of the parameter(s) to retrieve. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ssm_get_parameters_by_path() { local parameter_path response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ssm_get_parameters_by_path" echo "Retrieves one or more parameters from the AWS Systems Manager Parameter Store by specifying a parameter path." echo " -p parameter_path - The path of the parameter(s) to retrieve." echo "" } # Retrieve the calling parameters. while getopts "p:h" option; do case "${option}" in p) parameter_path="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$parameter_path" ]]; then errecho "ERROR: You must provide a parameter path with the -p parameter." usage return 1 fi response=$(aws ssm get-parameters-by-path \ --path "$parameter_path" \ --query "Parameters[*].[Name, Value]" \ --output text) || { aws_cli_error_log $? errecho "ERROR: AWS reports get-parameters-by-path operation failed.$response" return 1 } echo "$response" return 0 } ############################################################################### # function print_instance_details # # This function prints the details of an Amazon Elastic Compute Cloud (Amazon EC2) instance. # # Parameters: # instance_details - The instance details in the format "InstanceId ImageId InstanceType KeyName VpcId PublicIpAddress State.Name". # # Returns: # 0 - If successful. # 1 - If it fails. ############################################################################### function print_instance_details() { local instance_details="$1" if [[ -z "${instance_details}" ]]; then echo "Error: Missing required instance details argument." return 1 fi local instance_id image_id instance_type key_name vpc_id public_ip state instance_id=$(echo "${instance_details}" | awk '{print $1}') image_id=$(echo "${instance_details}" | awk '{print $2}') instance_type=$(echo "${instance_details}" | awk '{print $3}') key_name=$(echo "${instance_details}" | awk '{print $4}') vpc_id=$(echo "${instance_details}" | awk '{print $5}') public_ip=$(echo "${instance_details}" | awk '{print $6}') state=$(echo "${instance_details}" | awk '{print $7}') echo " ID: ${instance_id}" echo " Image ID: ${image_id}" echo " Instance type: ${instance_type}" echo " Key name: ${key_name}" echo " VPC ID: ${vpc_id}" echo " Public IP: ${public_ip}" echo " State: ${state}" return 0 } ############################################################################### # function connect_to_instance # # This function displays the public IP address of an Amazon Elastic Compute Cloud (Amazon EC2) instance and prompts the user to connect to the instance via SSH. # # Parameters: # $1 - The name of the key file used to connect to the instance. # $2 - The public IP address of the instance. # # Returns: # None ############################################################################### function connect_to_instance() { local key_file_name="$1" local public_ip="$2" # Validate the input parameters if [[ -z "$key_file_name" ]]; then echo "ERROR: You must provide a key file name as the first argument." >&2 return 1 fi if [[ -z "$public_ip" ]]; then echo "ERROR: You must provide a public IP address as the second argument." >&2 return 1 fi # Display the public IP address and connection command echo "To connect, run the following command:" echo " ssh -i ${key_file_name} ec2-user@${public_ip}" # Prompt the user to connect to the instance if yes_no_input "Do you want to connect now? (y/n) "; then echo "After you have connected, you can return to this example by typing 'exit'" ssh -i "${key_file_name}" ec2-user@"${public_ip}" fi } ############################################################################### # function get_input # # This function gets user input from the command line. # # Outputs: # User input to stdout. # # Returns: # 0 ############################################################################### function get_input() { if [ -z "${mock_input+x}" ]; then read -r get_input_result else if [ "$mock_input_array_index" -lt ${#mock_input_array[@]} ]; then get_input_result="${mock_input_array[$mock_input_array_index]}" # bashsupport disable=BP2001 # shellcheck disable=SC2206 ((mock_input_array_index++)) echo -n "$get_input_result" else echo "MOCK_INPUT_ARRAY has no more elements" 1>&2 return 1 fi fi return 0 } ############################################################################### # function yes_no_input # # This function requests a yes/no answer from the user, following to a prompt. # # Parameters: # $1 - The prompt. # # Returns: # 0 - If yes. # 1 - If no. ############################################################################### function yes_no_input() { if [ -z "$1" ]; then echo "Internal error yes_no_input" return 1 fi local index=0 local response="N" while [[ $index -lt 10 ]]; do index=$((index + 1)) echo -n "$1" if ! get_input; then return 1 fi response=$(echo "$get_input_result" | tr '[:upper:]' '[:lower:]') if [ "$response" = "y" ] || [ "$response" = "n" ]; then break else echo -e "\nPlease enter or 'y' or 'n'." fi done echo if [ "$response" = "y" ]; then return 0 else return 1 fi } ############################################################################### # function integer_input # # This function prompts the user to enter an integer within a specified range # and validates the input. # # Parameters: # $1 - The prompt message to display to the user. # $2 - The minimum value of the accepted range. # $3 - The maximum value of the accepted range. # # Returns: # The valid integer input from the user. # If the input is invalid or out of range, the function will continue # prompting the user until a valid input is provided. ############################################################################### function integer_input() { local prompt="$1" local min_value="$2" local max_value="$3" local input="" while true; do # Display the prompt message and wait for user input echo -n "$prompt" if ! get_input; then return 1 fi input="$get_input_result" # Check if the input is a valid integer if [[ "$input" =~ ^-?[0-9]+$ ]]; then # Check if the input is within the specified range if ((input >= min_value && input <= max_value)); then return 0 else echo "Error: Input, $input, must be between $min_value and $max_value." fi else echo "Error: Invalid input- $input. Please enter an integer." fi done } ############################################################################### # function new_line_and_tab_to_list # # This function takes a string input containing newlines and tabs, and # converts it into a list (array) of elements. # # Parameters: # $1 - The input string containing newlines and tabs. # # Returns: # The resulting list (array) is stored in the global variable # 'list_result'. ############################################################################### function new_line_and_tab_to_list() { local input=$1 export list_result list_result=() mapfile -t lines <<<"$input" local line for line in "${lines[@]}"; do IFS=$'\t' read -ra parameters <<<"$line" list_result+=("${parameters[@]}") done } ############################################################################### # function echo_repeat # # This function prints a string 'n' times to stdout. # # Parameters: # $1 - The string. # $2 - Number of times to print the string. # # Outputs: # String 'n' times to stdout. # # Returns: # 0 ############################################################################### function echo_repeat() { local end=$2 for ((i = 0; i < end; i++)); do echo -n "$1" done echo } ``` The DynamoDB functions used in this scenario. ``` ############################################################################### # function ec2_create_keypair # # This function creates an Amazon Elastic Compute Cloud (Amazon EC2) ED25519 or 2048-bit RSA key pair # and writes it to a file. # # Parameters: # -n key_pair_name - A key pair name. # -f file_path - File to store the key pair. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_create_keypair() { local key_pair_name file_path response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_create_keypair" echo "Creates an Amazon Elastic Compute Cloud (Amazon EC2) ED25519 or 2048-bit RSA key pair" echo " and writes it to a file." echo " -n key_pair_name - A key pair name." echo " -f file_path - File to store the key pair." echo "" } # Retrieve the calling parameters. while getopts "n:f:h" option; do case "${option}" in n) key_pair_name="${OPTARG}" ;; f) file_path="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$key_pair_name" ]]; then errecho "ERROR: You must provide a key name with the -n parameter." usage return 1 fi if [[ -z "$file_path" ]]; then errecho "ERROR: You must provide a file path with the -f parameter." usage return 1 fi response=$(aws ec2 create-key-pair \ --key-name "$key_pair_name" \ --query 'KeyMaterial' \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports create-access-key operation failed.$response" return 1 } if [[ -n "$file_path" ]]; then echo "$response" >"$file_path" fi return 0 } ############################################################################### # function ec2_describe_key_pairs # # This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) key pairs. # # Parameters: # -h - Display help. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_describe_key_pairs() { local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_describe_key_pairs" echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) key pairs." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "h" option; do case "${option}" in h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 local response response=$(aws ec2 describe-key-pairs \ --query 'KeyPairs[*].[KeyName, KeyFingerprint]' \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports describe-key-pairs operation failed.$response" return 1 } echo "$response" return 0 } ############################################################################### # function ec2_create_security_group # # This function creates an Amazon Elastic Compute Cloud (Amazon EC2) security group. # # Parameters: # -n security_group_name - The name of the security group. # -d security_group_description - The description of the security group. # # Returns: # The ID of the created security group, or an error message if the operation fails. # And: # 0 - If successful. # 1 - If it fails. # ############################################################################### function ec2_create_security_group() { local security_group_name security_group_description response # Function to display usage information function usage() { echo "function ec2_create_security_group" echo "Creates an Amazon Elastic Compute Cloud (Amazon EC2) security group." echo " -n security_group_name - The name of the security group." echo " -d security_group_description - The description of the security group." echo "" } # Parse the command-line arguments while getopts "n:d:h" option; do case "${option}" in n) security_group_name="${OPTARG}" ;; d) security_group_description="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Validate the input parameters if [[ -z "$security_group_name" ]]; then errecho "ERROR: You must provide a security group name with the -n parameter." return 1 fi if [[ -z "$security_group_description" ]]; then errecho "ERROR: You must provide a security group description with the -d parameter." return 1 fi # Create the security group response=$(aws ec2 create-security-group \ --group-name "$security_group_name" \ --description "$security_group_description" \ --query "GroupId" \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports create-security-group operation failed." errecho "$response" return 1 } echo "$response" return 0 } ############################################################################### # function ec2_describe_security_groups # # This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) security groups. # # Parameters: # -g security_group_id - The ID of the security group to describe (optional). # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_describe_security_groups() { local security_group_id response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_describe_security_groups" echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) security groups." echo " -g security_group_id - The ID of the security group to describe (optional)." echo "" } # Retrieve the calling parameters. while getopts "g:h" option; do case "${option}" in g) security_group_id="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 local query="SecurityGroups[*].[GroupName, GroupId, VpcId, IpPermissions[*].[IpProtocol, FromPort, ToPort, IpRanges[*].CidrIp]]" if [[ -n "$security_group_id" ]]; then response=$(aws ec2 describe-security-groups --group-ids "$security_group_id" --query "${query}" --output text) else response=$(aws ec2 describe-security-groups --query "${query}" --output text) fi local error_code=${?} if [[ $error_code -ne 0 ]]; then aws_cli_error_log $error_code errecho "ERROR: AWS reports describe-security-groups operation failed.$response" return 1 fi echo "$response" return 0 } ############################################################################### # function ec2_authorize_security_group_ingress # # This function authorizes an ingress rule for an Amazon Elastic Compute Cloud (Amazon EC2) security group. # # Parameters: # -g security_group_id - The ID of the security group. # -i ip_address - The IP address or CIDR block to authorize. # -p protocol - The protocol to authorize (e.g., tcp, udp, icmp). # -f from_port - The start of the port range to authorize. # -t to_port - The end of the port range to authorize. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_authorize_security_group_ingress() { local security_group_id ip_address protocol from_port to_port response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_authorize_security_group_ingress" echo "Authorizes an ingress rule for an Amazon Elastic Compute Cloud (Amazon EC2) security group." echo " -g security_group_id - The ID of the security group." echo " -i ip_address - The IP address or CIDR block to authorize." echo " -p protocol - The protocol to authorize (e.g., tcp, udp, icmp)." echo " -f from_port - The start of the port range to authorize." echo " -t to_port - The end of the port range to authorize." echo "" } # Retrieve the calling parameters. while getopts "g:i:p:f:t:h" option; do case "${option}" in g) security_group_id="${OPTARG}" ;; i) ip_address="${OPTARG}" ;; p) protocol="${OPTARG}" ;; f) from_port="${OPTARG}" ;; t) to_port="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$security_group_id" ]]; then errecho "ERROR: You must provide a security group ID with the -g parameter." usage return 1 fi if [[ -z "$ip_address" ]]; then errecho "ERROR: You must provide an IP address or CIDR block with the -i parameter." usage return 1 fi if [[ -z "$protocol" ]]; then errecho "ERROR: You must provide a protocol with the -p parameter." usage return 1 fi if [[ -z "$from_port" ]]; then errecho "ERROR: You must provide a start port with the -f parameter." usage return 1 fi if [[ -z "$to_port" ]]; then errecho "ERROR: You must provide an end port with the -t parameter." usage return 1 fi response=$(aws ec2 authorize-security-group-ingress \ --group-id "$security_group_id" \ --cidr "${ip_address}/32" \ --protocol "$protocol" \ --port "$from_port-$to_port" \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports authorize-security-group-ingress operation failed.$response" return 1 } return 0 } ############################################################################### # function ec2_describe_images # # This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) images. # # Parameters: # -i image_ids - A space-separated list of image IDs (optional). # -h - Display help. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_describe_images() { local image_ids response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_describe_images" echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) images." echo " -i image_ids - A space-separated list of image IDs (optional)." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:h" option; do case "${option}" in i) image_ids="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 local aws_cli_args=() if [[ -n "$image_ids" ]]; then # shellcheck disable=SC2206 aws_cli_args+=("--image-ids" $image_ids) fi response=$(aws ec2 describe-images \ "${aws_cli_args[@]}" \ --query 'Images[*].[Description,Architecture,ImageId]' \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports describe-images operation failed.$response" return 1 } echo "$response" return 0 } ############################################################################### # ec2_describe_instance_types # # This function describes EC2 instance types filtered by processor architecture # and optionally by instance type. It takes the following arguments: # # -a, --architecture ARCHITECTURE Specify the processor architecture (e.g., x86_64) # -t, --type INSTANCE_TYPE Comma-separated list of instance types (e.g., t2.micro) # -h, --help Show the usage help # # The function prints the instance type and supported architecture for each # matching instance type. ############################################################################### function ec2_describe_instance_types() { local architecture="" local instance_types="" # bashsupport disable=BP5008 function usage() { echo "Usage: ec2_describe_instance_types [-a|--architecture ARCHITECTURE] [-t|--type INSTANCE_TYPE] [-h|--help]" echo " -a, --architecture ARCHITECTURE Specify the processor architecture (e.g., x86_64)" echo " -t, --type INSTANCE_TYPE Comma-separated list of instance types (e.g., t2.micro)" echo " -h, --help Show this help message" } while [[ $# -gt 0 ]]; do case "$1" in -a | --architecture) architecture="$2" shift 2 ;; -t | --type) instance_types="$2" shift 2 ;; -h | --help) usage return 0 ;; *) echo "Unknown argument: $1" return 1 ;; esac done if [[ -z "$architecture" ]]; then errecho "Error: Architecture not specified." usage return 1 fi if [[ -z "$instance_types" ]]; then errecho "Error: Instance type not specified." usage return 1 fi local tmp_json_file="temp_ec2.json" echo -n '[ { "Name": "processor-info.supported-architecture", "Values": [' >"$tmp_json_file" local items IFS=',' read -ra items <<<"$architecture" local array_size array_size=${#items[@]} for i in $(seq 0 $((array_size - 1))); do echo -n '"'"${items[$i]}"'"' >>"$tmp_json_file" if [[ $i -lt $((array_size - 1)) ]]; then echo -n ',' >>"$tmp_json_file" fi done echo -n ']}, { "Name": "instance-type", "Values": [' >>"$tmp_json_file" IFS=',' read -ra items <<<"$instance_types" local array_size array_size=${#items[@]} for i in $(seq 0 $((array_size - 1))); do echo -n '"'"${items[$i]}"'"' >>"$tmp_json_file" if [[ $i -lt $((array_size - 1)) ]]; then echo -n ',' >>"$tmp_json_file" fi done echo -n ']}]' >>"$tmp_json_file" local response response=$(aws ec2 describe-instance-types --filters file://"$tmp_json_file" \ --query 'InstanceTypes[*].[InstanceType]' --output text) local error_code=$? rm "$tmp_json_file" if [[ $error_code -ne 0 ]]; then aws_cli_error_log $error_code echo "ERROR: AWS reports describe-instance-types operation failed." return 1 fi echo "$response" return 0 } ############################################################################### # function ec2_run_instances # # This function launches one or more Amazon Elastic Compute Cloud (Amazon EC2) instances. # # Parameters: # -i image_id - The ID of the Amazon Machine Image (AMI) to use. # -t instance_type - The instance type to use (e.g., t2.micro). # -k key_pair_name - The name of the key pair to use. # -s security_group_id - The ID of the security group to use. # -c count - The number of instances to launch (default: 1). # -h - Display help. # # Returns: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_run_instances() { local image_id instance_type key_pair_name security_group_id count response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_run_instances" echo "Launches one or more Amazon Elastic Compute Cloud (Amazon EC2) instances." echo " -i image_id - The ID of the Amazon Machine Image (AMI) to use." echo " -t instance_type - The instance type to use (e.g., t2.micro)." echo " -k key_pair_name - The name of the key pair to use." echo " -s security_group_id - The ID of the security group to use." echo " -c count - The number of instances to launch (default: 1)." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:t:k:s:c:h" option; do case "${option}" in i) image_id="${OPTARG}" ;; t) instance_type="${OPTARG}" ;; k) key_pair_name="${OPTARG}" ;; s) security_group_id="${OPTARG}" ;; c) count="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$image_id" ]]; then errecho "ERROR: You must provide an Amazon Machine Image (AMI) ID with the -i parameter." usage return 1 fi if [[ -z "$instance_type" ]]; then errecho "ERROR: You must provide an instance type with the -t parameter." usage return 1 fi if [[ -z "$key_pair_name" ]]; then errecho "ERROR: You must provide a key pair name with the -k parameter." usage return 1 fi if [[ -z "$security_group_id" ]]; then errecho "ERROR: You must provide a security group ID with the -s parameter." usage return 1 fi if [[ -z "$count" ]]; then count=1 fi response=$(aws ec2 run-instances \ --image-id "$image_id" \ --instance-type "$instance_type" \ --key-name "$key_pair_name" \ --security-group-ids "$security_group_id" \ --count "$count" \ --query 'Instances[*].[InstanceId]' \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports run-instances operation failed.$response" return 1 } echo "$response" return 0 } ############################################################################### # function ec2_describe_instances # # This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) instances. # # Parameters: # -i instance_id - The ID of the instance to describe (optional). # -q query - The query to filter the response (optional). # -h - Display help. # # Returns: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_describe_instances() { local instance_id query response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_describe_instances" echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) instances." echo " -i instance_id - The ID of the instance to describe (optional)." echo " -q query - The query to filter the response (optional)." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:q:h" option; do case "${option}" in i) instance_id="${OPTARG}" ;; q) query="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 local aws_cli_args=() if [[ -n "$instance_id" ]]; then # shellcheck disable=SC2206 aws_cli_args+=("--instance-ids" $instance_id) fi local query_arg="" if [[ -n "$query" ]]; then query_arg="--query '$query'" else query_arg="--query Reservations[*].Instances[*].[InstanceId,ImageId,InstanceType,KeyName,VpcId,PublicIpAddress,State.Name]" fi # shellcheck disable=SC2086 response=$(aws ec2 describe-instances \ "${aws_cli_args[@]}" \ $query_arg \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports describe-instances operation failed.$response" return 1 } echo "$response" return 0 } ############################################################################### # function ec2_stop_instances # # This function stops one or more Amazon Elastic Compute Cloud (Amazon EC2) instances. # # Parameters: # -i instance_id - The ID(s) of the instance(s) to stop (comma-separated). # -h - Display help. # # Returns: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_stop_instances() { local instance_ids local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_stop_instances" echo "Stops one or more Amazon Elastic Compute Cloud (Amazon EC2) instances." echo " -i instance_id - The ID(s) of the instance(s) to stop (comma-separated)." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:h" option; do case "${option}" in i) instance_ids="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$instance_ids" ]]; then errecho "ERROR: You must provide one or more instance IDs with the -i parameter." usage return 1 fi response=$(aws ec2 stop-instances \ --instance-ids "${instance_ids}") || { aws_cli_error_log ${?} errecho "ERROR: AWS reports stop-instances operation failed with $response." return 1 } return 0 } ############################################################################### # function ec2_start_instances # # This function starts one or more Amazon Elastic Compute Cloud (Amazon EC2) instances. # # Parameters: # -i instance_id - The ID(s) of the instance(s) to start (comma-separated). # -h - Display help. # # Returns: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_start_instances() { local instance_ids local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_start_instances" echo "Starts one or more Amazon Elastic Compute Cloud (Amazon EC2) instances." echo " -i instance_id - The ID(s) of the instance(s) to start (comma-separated)." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:h" option; do case "${option}" in i) instance_ids="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$instance_ids" ]]; then errecho "ERROR: You must provide one or more instance IDs with the -i parameter." usage return 1 fi response=$(aws ec2 start-instances \ --instance-ids "${instance_ids}") || { aws_cli_error_log ${?} errecho "ERROR: AWS reports start-instances operation failed with $response." return 1 } return 0 } ############################################################################### # function ec2_allocate_address # # This function allocates an Elastic IP address for use with Amazon Elastic Compute Cloud (Amazon EC2) instances in a specific AWS Region. # # Parameters: # -d domain - The domain for the Elastic IP address (either 'vpc' or 'standard'). # # Returns: # The allocated Elastic IP address, or an error message if the operation fails. # And: # 0 - If successful. # 1 - If it fails. # ############################################################################### function ec2_allocate_address() { local domain response # Function to display usage information function usage() { echo "function ec2_allocate_address" echo "Allocates an Elastic IP address for use with Amazon Elastic Compute Cloud (Amazon EC2) instances in a specific AWS Region." echo " -d domain - The domain for the Elastic IP address (either 'vpc' or 'standard')." echo "" } # Parse the command-line arguments while getopts "d:h" option; do case "${option}" in d) domain="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Validate the input parameters if [[ -z "$domain" ]]; then errecho "ERROR: You must provide a domain with the -d parameter (either 'vpc' or 'standard')." return 1 fi if [[ "$domain" != "vpc" && "$domain" != "standard" ]]; then errecho "ERROR: Invalid domain value. Must be either 'vpc' or 'standard'." return 1 fi # Allocate the Elastic IP address response=$(aws ec2 allocate-address \ --domain "$domain" \ --query "[PublicIp,AllocationId]" \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports allocate-address operation failed." errecho "$response" return 1 } echo "$response" return 0 } ############################################################################### # function ec2_associate_address # # This function associates an Elastic IP address with an Amazon Elastic Compute Cloud (Amazon EC2) instance. # # Parameters: # -a allocation_id - The allocation ID of the Elastic IP address to associate. # -i instance_id - The ID of the EC2 instance to associate the Elastic IP address with. # # Returns: # 0 - If successful. # 1 - If it fails. # ############################################################################### function ec2_associate_address() { local allocation_id instance_id response # Function to display usage information function usage() { echo "function ec2_associate_address" echo "Associates an Elastic IP address with an Amazon Elastic Compute Cloud (Amazon EC2) instance." echo " -a allocation_id - The allocation ID of the Elastic IP address to associate." echo " -i instance_id - The ID of the EC2 instance to associate the Elastic IP address with." echo "" } # Parse the command-line arguments while getopts "a:i:h" option; do case "${option}" in a) allocation_id="${OPTARG}" ;; i) instance_id="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Validate the input parameters if [[ -z "$allocation_id" ]]; then errecho "ERROR: You must provide an allocation ID with the -a parameter." return 1 fi if [[ -z "$instance_id" ]]; then errecho "ERROR: You must provide an instance ID with the -i parameter." return 1 fi # Associate the Elastic IP address response=$(aws ec2 associate-address \ --allocation-id "$allocation_id" \ --instance-id "$instance_id" \ --query "AssociationId" \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports associate-address operation failed." errecho "$response" return 1 } echo "$response" return 0 } ############################################################################### # function ec2_disassociate_address # # This function disassociates an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance. # # Parameters: # -a association_id - The association ID that represents the association of the Elastic IP address with an instance. # # And: # 0 - If successful. # 1 - If it fails. # ############################################################################### function ec2_disassociate_address() { local association_id response # Function to display usage information function usage() { echo "function ec2_disassociate_address" echo "Disassociates an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance." echo " -a association_id - The association ID that represents the association of the Elastic IP address with an instance." echo "" } # Parse the command-line arguments while getopts "a:h" option; do case "${option}" in a) association_id="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Validate the input parameters if [[ -z "$association_id" ]]; then errecho "ERROR: You must provide an association ID with the -a parameter." return 1 fi response=$(aws ec2 disassociate-address \ --association-id "$association_id") || { aws_cli_error_log ${?} errecho "ERROR: AWS reports disassociate-address operation failed." errecho "$response" return 1 } return 0 } ############################################################################### # function ec2_release_address # # This function releases an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance. # # Parameters: # -a allocation_id - The allocation ID of the Elastic IP address to release. # # Returns: # 0 - If successful. # 1 - If it fails. # ############################################################################### function ec2_release_address() { local allocation_id response # Function to display usage information function usage() { echo "function ec2_release_address" echo "Releases an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance." echo " -a allocation_id - The allocation ID of the Elastic IP address to release." echo "" } # Parse the command-line arguments while getopts "a:h" option; do case "${option}" in a) allocation_id="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Validate the input parameters if [[ -z "$allocation_id" ]]; then errecho "ERROR: You must provide an allocation ID with the -a parameter." return 1 fi response=$(aws ec2 release-address \ --allocation-id "$allocation_id") || { aws_cli_error_log ${?} errecho "ERROR: AWS reports release-address operation failed." errecho "$response" return 1 } return 0 } ############################################################################### # function ec2_terminate_instances # # This function terminates one or more Amazon Elastic Compute Cloud (Amazon EC2) # instances using the AWS CLI. # # Parameters: # -i instance_ids - A space-separated list of instance IDs. # -h - Display help. # # Returns: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_terminate_instances() { local instance_ids response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_terminate_instances" echo "Terminates one or more Amazon Elastic Compute Cloud (Amazon EC2) instances." echo " -i instance_ids - A space-separated list of instance IDs." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:h" option; do case "${option}" in i) instance_ids="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Check if instance ID is provided if [[ -z "${instance_ids}" ]]; then echo "Error: Missing required instance IDs parameter." usage return 1 fi # shellcheck disable=SC2086 response=$(aws ec2 terminate-instances \ "--instance-ids" $instance_ids \ --query 'TerminatingInstances[*].[InstanceId,CurrentState.Name]' \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports terminate-instances operation failed.$response" return 1 } return 0 } ############################################################################### # function ec2_delete_security_group # # This function deletes an Amazon Elastic Compute Cloud (Amazon EC2) security group. # # Parameters: # -i security_group_id - The ID of the security group to delete. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_delete_security_group() { local security_group_id response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_delete_security_group" echo "Deletes an Amazon Elastic Compute Cloud (Amazon EC2) security group." echo " -i security_group_id - The ID of the security group to delete." echo "" } # Retrieve the calling parameters. while getopts "i:h" option; do case "${option}" in i) security_group_id="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$security_group_id" ]]; then errecho "ERROR: You must provide a security group ID with the -i parameter." usage return 1 fi response=$(aws ec2 delete-security-group --group-id "$security_group_id" --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports delete-security-group operation failed.$response" return 1 } return 0 } ############################################################################### # function ec2_delete_keypair # # This function deletes an Amazon EC2 ED25519 or 2048-bit RSA key pair. # # Parameters: # -n key_pair_name - A key pair name. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_delete_keypair() { local key_pair_name response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_delete_keypair" echo "Deletes an Amazon EC2 ED25519 or 2048-bit RSA key pair." echo " -n key_pair_name - A key pair name." echo "" } # Retrieve the calling parameters. while getopts "n:h" option; do case "${option}" in n) key_pair_name="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$key_pair_name" ]]; then errecho "ERROR: You must provide a key pair name with the -n parameter." usage return 1 fi response=$(aws ec2 delete-key-pair \ --key-name "$key_pair_name") || { aws_cli_error_log ${?} errecho "ERROR: AWS reports delete-key-pair operation failed.$response" return 1 } return 0 } ``` The utility functions used in this scenario. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see the following topics in *AWS CLI Command Reference*. + [AllocateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AllocateAddress) + [AssociateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AssociateAddress) + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AuthorizeSecurityGroupIngress) + [CreateKeyPair](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateKeyPair) + [CreateSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateSecurityGroup) + [DeleteKeyPair](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteKeyPair) + [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteSecurityGroup) + [DescribeImages](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeImages) + [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeInstanceTypes) + [DescribeInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeInstances) + [DescribeKeyPairs](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeKeyPairs) + [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeSecurityGroups) + [DisassociateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DisassociateAddress) + [ReleaseAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/ReleaseAddress) + [RunInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/RunInstances) + [StartInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/StartInstances) + [StopInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/StopInstances) + [TerminateInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/TerminateInstances) + [UnmonitorInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/UnmonitorInstances) ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). Run a scenario at a command prompt. ``` import org.slf4j.Logger; import org.slf4j.LoggerFactory; import software.amazon.awssdk.services.ec2.model.CreateKeyPairResponse; import software.amazon.awssdk.services.ec2.model.DeleteKeyPairResponse; import software.amazon.awssdk.services.ec2.model.DescribeKeyPairsResponse; import software.amazon.awssdk.services.ec2.model.DisassociateAddressResponse; import software.amazon.awssdk.services.ec2.model.Ec2Exception; import software.amazon.awssdk.services.ec2.model.ReleaseAddressResponse; import software.amazon.awssdk.services.ssm.model.GetParametersByPathResponse; import software.amazon.awssdk.services.ssm.model.Parameter; import java.net.InetAddress; import java.net.UnknownHostException; import java.util.List; import java.util.Scanner; import java.util.concurrent.CompletableFuture; import java.util.concurrent.CompletionException; /** * Before running this Java (v2) code example, set up your development * environment, including your credentials. * * For more information, see the following documentation topic: * * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html * * This Java example performs the following tasks: * * 1. Creates an RSA key pair and saves the private key data as a .pem file. * 2. Lists key pairs. * 3. Creates a security group for the default VPC. * 4. Displays security group information. * 5. Gets a list of Amazon Linux 2 AMIs and selects one. * 6. Gets additional information about the image. * 7. Gets a list of instance types that are compatible with the selected AMI’s * architecture. * 8. Creates an instance with the key pair, security group, AMI, and an * instance type. * 9. Displays information about the instance. * 10. Stops the instance and waits for it to stop. * 11. Starts the instance and waits for it to start. * 12. Allocates an Elastic IP address and associates it with the instance. * 13. Displays SSH connection info for the instance. * 14. Disassociates and deletes the Elastic IP address. * 15. Terminates the instance and waits for it to terminate. * 16. Deletes the security group. * 17. Deletes the key pair. */ public class EC2Scenario { public static final String DASHES = new String(new char[80]).replace("\0", "-"); private static final Logger logger = LoggerFactory.getLogger(EC2Scenario.class); public static void main(String[] args) throws InterruptedException, UnknownHostException { logger.info(""" Usage: Where: keyName - A key pair name (for example, TestKeyPair).\s fileName - A file name where the key information is written to.\s groupName - The name of the security group.\s groupDesc - The description of the security group.\s """); Scanner scanner = new Scanner(System.in); EC2Actions ec2Actions = new EC2Actions(); String keyName = "TestKeyPair7" ; String fileName = "ec2Key.pem"; String groupName = "TestSecGroup7" ; String groupDesc = "Test Group" ; String vpcId = ec2Actions.describeFirstEC2VpcAsync().join().vpcId(); InetAddress localAddress = InetAddress.getLocalHost(); String myIpAddress = localAddress.getHostAddress(); logger.info(""" Amazon Elastic Compute Cloud (EC2) is a web service that provides secure, resizable compute capacity in the cloud. It allows developers and organizations to easily launch and manage virtual server instances, known as EC2 instances, to run their applications. EC2 provides a wide range of instance types, each with different compute, memory, and storage capabilities, to meet the diverse needs of various workloads. Developers can choose the appropriate instance type based on their application's requirements, such as high-performance computing, memory-intensive tasks, or GPU-accelerated workloads. The `Ec2AsyncClient` interface in the AWS SDK for Java 2.x provides a set of methods to programmatically interact with the Amazon EC2 service. This allows developers to automate the provisioning, management, and monitoring of EC2 instances as part of their application deployment pipelines. With EC2, teams can focus on building and deploying their applications without having to worry about the underlying infrastructure required to host and manage physical servers. This scenario walks you through how to perform key operations for this service. Let's get started... """); waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("1. Create an RSA key pair and save the private key material as a .pem file."); logger.info(""" An RSA key pair for Amazon EC2 is a security mechanism used to authenticate and secure access to your EC2 instances. It consists of a public key and a private key, which are generated as a pair. """); waitForInputToContinue(scanner); try { CompletableFuture future = ec2Actions.createKeyPairAsync(keyName, fileName); CreateKeyPairResponse response = future.join(); logger.info("Key Pair successfully created. Key Fingerprint: " + response.keyFingerprint()); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { if (ec2Ex.getMessage().contains("already exists")) { // Key pair already exists. logger.info("The key pair '" + keyName + "' already exists. Moving on..."); } else { logger.info("EC2 error occurred: Error message: {}, Error code {}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } } else { logger.info("An unexpected error occurred: " + (rt.getMessage())); return; } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("2. List key pairs."); waitForInputToContinue(scanner); try { CompletableFuture future = ec2Actions.describeKeysAsync(); DescribeKeyPairsResponse keyPairsResponse = future.join(); keyPairsResponse.keyPairs().forEach(keyPair -> logger.info( "Found key pair with name {} and fingerprint {}", keyPair.keyName(), keyPair.keyFingerprint())); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { logger.info("EC2 error occurred: Error message: {}, Error code {}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", (cause != null ? cause.getMessage() : rt.getMessage())); return; } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("3. Create a security group."); logger.info(""" An AWS EC2 Security Group is a virtual firewall that controls the inbound and outbound traffic to an EC2 instance. It acts as a first line of defense for your EC2 instances, allowing you to specify the rules that govern the network traffic entering and leaving your instances. """); waitForInputToContinue(scanner); String groupId = ""; try { CompletableFuture future = ec2Actions.createSecurityGroupAsync(groupName, groupDesc, vpcId, myIpAddress); future.join(); logger.info("Created security group") ; } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { if (ec2Ex.awsErrorDetails().errorMessage().contains("already exists")) { logger.info("The Security Group already exists. Moving on..."); } else { logger.error("An unexpected error occurred: {}", ec2Ex.awsErrorDetails().errorMessage()); return; } } else { logger.error("An unexpected error occurred: {}", cause.getMessage()); return; } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("4. Display security group information for the new security group."); waitForInputToContinue(scanner); try { CompletableFuture future = ec2Actions.describeSecurityGroupArnByNameAsync(groupName); groupId = future.join(); logger.info("The security group Id is "+groupId); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { String errorCode = ec2Ex.awsErrorDetails().errorCode(); if ("InvalidGroup.NotFound".equals(errorCode)) { logger.info("Security group '{}' does not exist. Error Code: {}", groupName, errorCode); } else { logger.info("EC2 error occurred: Message {}, Error Code: {}", ec2Ex.getMessage(), errorCode); } } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("5. Get a list of Amazon Linux 2 AMIs and select one with amzn2 in the name."); logger.info(""" An Amazon EC2 AMI (Amazon Machine Image) is a pre-configured virtual machine image that serves as a template for launching EC2 instances. It contains all the necessary software and configurations required to run an application or operating system on an EC2 instance. """); waitForInputToContinue(scanner); String instanceAMI=""; try { CompletableFuture future = ec2Actions.getParaValuesAsync(); GetParametersByPathResponse pathResponse = future.join(); List parameterList = pathResponse.parameters(); for (Parameter para : parameterList) { if (filterName(para.name())) { instanceAMI = para.value(); break; } } } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } logger.info("The AMI value with amzn2 is: {}", instanceAMI); waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("6. Get the (Amazon Machine Image) AMI value from the amzn2 image."); logger.info(""" An AMI value represents a specific version of a virtual machine (VM) or server image. It uniquely identifies a particular version of an EC2 instance, including its operating system, pre-installed software, and any custom configurations. This allows you to consistently deploy the same VM image across your infrastructure. """); waitForInputToContinue(scanner); String amiValue; try { CompletableFuture future = ec2Actions.describeImageAsync(instanceAMI); amiValue = future.join(); } catch (CompletionException ce) { Throwable cause = ce.getCause(); if (cause instanceof Ec2Exception) { Ec2Exception ec2Ex = (Ec2Exception) cause; logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("7. Retrieves an instance type available in the current AWS region."); waitForInputToContinue(scanner); String instanceType; try { CompletableFuture future = ec2Actions.getInstanceTypesAsync(); instanceType = future.join(); if (!instanceType.isEmpty()) { logger.info("Found instance type: " + instanceType); } else { logger.info("Desired instance type not found."); } } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("8. Create an Amazon EC2 instance using the key pair, the instance type, the security group, and the EC2 AMI value."); logger.info("Once the EC2 instance is created, it is placed into a running state."); waitForInputToContinue(scanner); String newInstanceId; try { CompletableFuture future = ec2Actions.runInstanceAsync(instanceType, keyName, groupName, amiValue); newInstanceId = future.join(); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception) { Ec2Exception ec2Ex = (Ec2Exception) cause; switch (ec2Ex.awsErrorDetails().errorCode()) { case "InvalidParameterValue": logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); break; case "InsufficientInstanceCapacity": // Handle insufficient instance capacity. logger.info("Insufficient instance capacity: {}, {}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); break; case "InvalidGroup.NotFound": // Handle security group not found. logger.info("Security group not found: {},{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); break; default: logger.info("EC2 error occurred: {} (Code: {}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); break; } return; } else { logger.info("An unexpected error occurred: {}", (cause != null ? cause.getMessage() : rt.getMessage())); return; } } logger.info("The instance Id is " + newInstanceId); waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("9. Display information about the running instance. "); waitForInputToContinue(scanner); String publicIp; try { CompletableFuture future = ec2Actions.describeEC2InstancesAsync(newInstanceId); publicIp = future.join(); logger.info("EC2 instance public IP {}", publicIp); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } logger.info("You can SSH to the instance using this command:"); logger.info("ssh -i " + fileName + " ec2-user@" + publicIp); waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("10. Stop the instance using a waiter (this may take a few mins)."); // Remove the 2nd one waitForInputToContinue(scanner); try { CompletableFuture future = ec2Actions.stopInstanceAsync(newInstanceId); future.join(); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("11. Start the instance using a waiter (this may take a few mins)."); try { CompletableFuture future = ec2Actions.startInstanceAsync(newInstanceId); future.join(); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { // Handle EC2 exceptions. logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("12. Allocate an Elastic IP address and associate it with the instance."); logger.info(""" An Elastic IP address is a static public IP address that you can associate with your EC2 instance. This allows you to have a fixed, predictable IP address that remains the same even if your instance is stopped, terminated, or replaced. This is particularly useful for applications or services that need to be accessed consistently from a known IP address. An EC2 Allocation ID (also known as a Reserved Instance Allocation ID) is a unique identifier associated with a Reserved Instance (RI) that you have purchased in AWS. When you purchase a Reserved Instance, AWS assigns a unique Allocation ID to it. This Allocation ID is used to track and identify the specific RI you have purchased, and it is important for managing and monitoring your Reserved Instances. """); waitForInputToContinue(scanner); String allocationId; try { CompletableFuture future = ec2Actions.allocateAddressAsync(); allocationId = future.join(); logger.info("Successfully allocated address with ID: " +allocationId); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } logger.info("The allocation Id value is " + allocationId); waitForInputToContinue(scanner); String associationId; try { CompletableFuture future = ec2Actions.associateAddressAsync(newInstanceId, allocationId); associationId = future.join(); logger.info("Successfully associated address with ID: " +associationId); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("13. Describe the instance again. Note that the public IP address has changed"); waitForInputToContinue(scanner); try { CompletableFuture future = ec2Actions.describeEC2InstancesAsync(newInstanceId); publicIp = future.join(); logger.info("EC2 instance public IP: " + publicIp); logger.info("You can SSH to the instance using this command:"); logger.info("ssh -i " + fileName + " ec2-user@" + publicIp); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("14. Disassociate and release the Elastic IP address."); waitForInputToContinue(scanner); try { CompletableFuture future = ec2Actions.disassociateAddressAsync(associationId); future.join(); logger.info("Address successfully disassociated."); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { // Handle EC2 exceptions. logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } waitForInputToContinue(scanner); try { CompletableFuture future = ec2Actions.releaseEC2AddressAsync(allocationId); future.join(); // Wait for the operation to complete logger.info("Elastic IP address successfully released."); } catch (RuntimeException rte) { logger.info("An unexpected error occurred: {}", rte.getMessage()); return; } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("15. Terminate the instance and use a waiter (this may take a few mins)."); waitForInputToContinue(scanner); try { CompletableFuture future = ec2Actions.terminateEC2Async(newInstanceId); future.join(); logger.info("EC2 instance successfully terminated."); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { // Handle EC2 exceptions. logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } logger.info(DASHES); logger.info(DASHES); logger.info("16. Delete the security group."); waitForInputToContinue(scanner); try { CompletableFuture future = ec2Actions.deleteEC2SecGroupAsync(groupId); future.join(); logger.info("Security group successfully deleted."); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("17. Delete the key."); waitForInputToContinue(scanner); try { CompletableFuture future = ec2Actions.deleteKeysAsync(keyName); future.join(); logger.info("Successfully deleted key pair named " + keyName); } catch (RuntimeException rt) { Throwable cause = rt.getCause(); if (cause instanceof Ec2Exception ec2Ex) { logger.info("EC2 error occurred: Message {}, Error Code:{}", ec2Ex.getMessage(), ec2Ex.awsErrorDetails().errorCode()); return; } else { logger.info("An unexpected error occurred: {}", cause.getMessage()); return; } } waitForInputToContinue(scanner); logger.info(DASHES); logger.info(DASHES); logger.info("You successfully completed the Amazon EC2 scenario."); logger.info(DASHES); } public static boolean filterName(String name) { String[] parts = name.split("/"); String myValue = parts[4]; return myValue.contains("amzn2"); } private static void waitForInputToContinue(Scanner scanner) { while (true) { logger.info(""); logger.info("Enter 'c' followed by to continue:"); String input = scanner.nextLine(); if (input.trim().equalsIgnoreCase("c")) { logger.info("Continuing with the program..."); logger.info(""); break; } else { // Handle invalid input. logger.info("Invalid input. Please try again."); } } } } ``` Define a class that wraps EC2 actions. ``` import org.slf4j.Logger; import org.slf4j.LoggerFactory; import software.amazon.awssdk.core.client.config.ClientOverrideConfiguration; import software.amazon.awssdk.http.async.SdkAsyncHttpClient; import software.amazon.awssdk.http.nio.netty.NettyNioAsyncHttpClient; import software.amazon.awssdk.regions.Region; import software.amazon.awssdk.services.ec2.Ec2AsyncClient; import software.amazon.awssdk.services.ec2.model.AllocateAddressRequest; import software.amazon.awssdk.services.ec2.model.AllocateAddressResponse; import software.amazon.awssdk.services.ec2.model.AssociateAddressRequest; import software.amazon.awssdk.services.ec2.model.AssociateAddressResponse; import software.amazon.awssdk.services.ec2.model.AuthorizeSecurityGroupIngressRequest; import software.amazon.awssdk.services.ec2.model.CreateKeyPairRequest; import software.amazon.awssdk.services.ec2.model.CreateKeyPairResponse; import software.amazon.awssdk.services.ec2.model.CreateSecurityGroupRequest; import software.amazon.awssdk.services.ec2.model.DeleteKeyPairRequest; import software.amazon.awssdk.services.ec2.model.DeleteKeyPairResponse; import software.amazon.awssdk.services.ec2.model.DeleteSecurityGroupRequest; import software.amazon.awssdk.services.ec2.model.DeleteSecurityGroupResponse; import software.amazon.awssdk.services.ec2.model.DescribeImagesRequest; import software.amazon.awssdk.services.ec2.model.DescribeInstanceTypesRequest; import software.amazon.awssdk.services.ec2.model.DescribeInstanceTypesResponse; import software.amazon.awssdk.services.ec2.model.DescribeInstancesRequest; import software.amazon.awssdk.services.ec2.model.DescribeKeyPairsResponse; import software.amazon.awssdk.services.ec2.model.DescribeSecurityGroupsRequest; import software.amazon.awssdk.services.ec2.model.DescribeSecurityGroupsResponse; import software.amazon.awssdk.services.ec2.model.DescribeVpcsRequest; import software.amazon.awssdk.services.ec2.model.DisassociateAddressRequest; import software.amazon.awssdk.services.ec2.model.DisassociateAddressResponse; import software.amazon.awssdk.services.ec2.model.DomainType; import software.amazon.awssdk.services.ec2.model.Ec2Exception; import software.amazon.awssdk.services.ec2.model.Filter; import software.amazon.awssdk.services.ec2.model.InstanceTypeInfo; import software.amazon.awssdk.services.ec2.model.IpPermission; import software.amazon.awssdk.services.ec2.model.IpRange; import software.amazon.awssdk.services.ec2.model.ReleaseAddressRequest; import software.amazon.awssdk.services.ec2.model.ReleaseAddressResponse; import software.amazon.awssdk.services.ec2.model.RunInstancesRequest; import software.amazon.awssdk.services.ec2.model.RunInstancesResponse; import software.amazon.awssdk.services.ec2.model.StopInstancesRequest; import software.amazon.awssdk.services.ec2.model.StartInstancesRequest; import software.amazon.awssdk.services.ec2.model.TerminateInstancesRequest; import software.amazon.awssdk.services.ec2.model.Vpc; import software.amazon.awssdk.services.ec2.paginators.DescribeImagesPublisher; import software.amazon.awssdk.services.ec2.paginators.DescribeInstancesPublisher; import software.amazon.awssdk.services.ec2.paginators.DescribeSecurityGroupsPublisher; import software.amazon.awssdk.services.ec2.paginators.DescribeVpcsPublisher; import software.amazon.awssdk.services.ec2.waiters.Ec2AsyncWaiter; import software.amazon.awssdk.services.ssm.SsmAsyncClient; import software.amazon.awssdk.services.ssm.model.GetParametersByPathRequest; import software.amazon.awssdk.services.ssm.model.GetParametersByPathResponse; import software.amazon.awssdk.services.ec2.model.TerminateInstancesResponse; import java.io.BufferedWriter; import java.io.FileWriter; import java.io.IOException; import java.time.Duration; import java.util.List; import java.util.concurrent.CompletableFuture; import java.util.concurrent.CompletionException; import java.util.concurrent.atomic.AtomicReference; public class EC2Actions { private static final Logger logger = LoggerFactory.getLogger(EC2Actions.class); private static Ec2AsyncClient ec2AsyncClient; /** * Retrieves an asynchronous Amazon Elastic Container Registry (ECR) client. * * @return the configured ECR asynchronous client. */ private static Ec2AsyncClient getAsyncClient() { if (ec2AsyncClient == null) { /* The `NettyNioAsyncHttpClient` class is part of the AWS SDK for Java, version 2, and it is designed to provide a high-performance, asynchronous HTTP client for interacting with AWS services. It uses the Netty framework to handle the underlying network communication and the Java NIO API to provide a non-blocking, event-driven approach to HTTP requests and responses. */ SdkAsyncHttpClient httpClient = NettyNioAsyncHttpClient.builder() .maxConcurrency(50) // Adjust as needed. .connectionTimeout(Duration.ofSeconds(60)) // Set the connection timeout. .readTimeout(Duration.ofSeconds(60)) // Set the read timeout. .writeTimeout(Duration.ofSeconds(60)) // Set the write timeout. .build(); ClientOverrideConfiguration overrideConfig = ClientOverrideConfiguration.builder() .apiCallTimeout(Duration.ofMinutes(2)) // Set the overall API call timeout. .apiCallAttemptTimeout(Duration.ofSeconds(90)) // Set the individual call attempt timeout. .build(); ec2AsyncClient = Ec2AsyncClient.builder() .region(Region.US_EAST_1) .httpClient(httpClient) .overrideConfiguration(overrideConfig) .build(); } return ec2AsyncClient; } /** * Deletes a key pair asynchronously. * * @param keyPair the name of the key pair to delete * @return a {@link CompletableFuture} that represents the result of the asynchronous operation. * The {@link CompletableFuture} will complete with a {@link DeleteKeyPairResponse} object * that provides the result of the key pair deletion operation. */ public CompletableFuture deleteKeysAsync(String keyPair) { DeleteKeyPairRequest request = DeleteKeyPairRequest.builder() .keyName(keyPair) .build(); // Initiate the asynchronous request to delete the key pair. CompletableFuture response = getAsyncClient().deleteKeyPair(request); return response.whenComplete((resp, ex) -> { if (ex != null) { throw new RuntimeException("Failed to delete key pair: " + keyPair, ex); } else if (resp == null) { throw new RuntimeException("No response received for deleting key pair: " + keyPair); } }); } /** * Deletes an EC2 security group asynchronously. * * @param groupId the ID of the security group to delete * @return a CompletableFuture that completes when the security group is deleted */ public CompletableFuture deleteEC2SecGroupAsync(String groupId) { DeleteSecurityGroupRequest request = DeleteSecurityGroupRequest.builder() .groupId(groupId) .build(); CompletableFuture response = getAsyncClient().deleteSecurityGroup(request); return response.whenComplete((resp, ex) -> { if (ex != null) { throw new RuntimeException("Failed to delete security group with Id " + groupId, ex); } else if (resp == null) { throw new RuntimeException("No response received for deleting security group with Id " + groupId); } }).thenApply(resp -> null); } /** * Terminates an EC2 instance asynchronously and waits for it to reach the terminated state. * * @param instanceId the ID of the EC2 instance to terminate * @return a {@link CompletableFuture} that completes when the instance has been terminated * @throws RuntimeException if there is no response from the AWS SDK or if there is a failure during the termination process */ public CompletableFuture terminateEC2Async(String instanceId) { TerminateInstancesRequest terminateRequest = TerminateInstancesRequest.builder() .instanceIds(instanceId) .build(); CompletableFuture responseFuture = getAsyncClient().terminateInstances(terminateRequest); return responseFuture.thenCompose(terminateResponse -> { if (terminateResponse == null) { throw new RuntimeException("No response received for terminating instance " + instanceId); } System.out.println("Going to terminate an EC2 instance and use a waiter to wait for it to be in terminated state"); return getAsyncClient().waiter() .waitUntilInstanceTerminated(r -> r.instanceIds(instanceId)) .thenApply(waiterResponse -> null); }).exceptionally(throwable -> { // Handle any exceptions that occurred during the async call throw new RuntimeException("Failed to terminate EC2 instance: " + throwable.getMessage(), throwable); }); } /** * Releases an Elastic IP address asynchronously. * * @param allocId the allocation ID of the Elastic IP address to be released * @return a {@link CompletableFuture} representing the asynchronous operation of releasing the Elastic IP address */ public CompletableFuture releaseEC2AddressAsync(String allocId) { ReleaseAddressRequest request = ReleaseAddressRequest.builder() .allocationId(allocId) .build(); CompletableFuture response = getAsyncClient().releaseAddress(request); response.whenComplete((resp, ex) -> { if (ex != null) { throw new RuntimeException("Failed to release Elastic IP address", ex); } }); return response; } /** * Disassociates an Elastic IP address from an instance asynchronously. * * @param associationId The ID of the association you want to disassociate. * @return a {@link CompletableFuture} representing the asynchronous operation of disassociating the address. The * {@link CompletableFuture} will complete with a {@link DisassociateAddressResponse} when the operation is * finished. * @throws RuntimeException if the disassociation of the address fails. */ public CompletableFuture disassociateAddressAsync(String associationId) { Ec2AsyncClient ec2 = getAsyncClient(); DisassociateAddressRequest addressRequest = DisassociateAddressRequest.builder() .associationId(associationId) .build(); // Disassociate the address asynchronously. CompletableFuture response = ec2.disassociateAddress(addressRequest); response.whenComplete((resp, ex) -> { if (ex != null) { throw new RuntimeException("Failed to disassociate address", ex); } }); return response; } /** * Associates an Elastic IP address with an EC2 instance asynchronously. * * @param instanceId the ID of the EC2 instance to associate the Elastic IP address with * @param allocationId the allocation ID of the Elastic IP address to associate * @return a {@link CompletableFuture} that completes with the association ID when the operation is successful, * or throws a {@link RuntimeException} if the operation fails */ public CompletableFuture associateAddressAsync(String instanceId, String allocationId) { AssociateAddressRequest associateRequest = AssociateAddressRequest.builder() .instanceId(instanceId) .allocationId(allocationId) .build(); CompletableFuture responseFuture = getAsyncClient().associateAddress(associateRequest); return responseFuture.thenApply(response -> { if (response.associationId() != null) { return response.associationId(); } else { throw new RuntimeException("Association ID is null after associating address."); } }).whenComplete((result, ex) -> { if (ex != null) { throw new RuntimeException("Failed to associate address", ex); } }); } /** * Allocates an Elastic IP address asynchronously in the VPC domain. * * @return a {@link CompletableFuture} containing the allocation ID of the allocated Elastic IP address */ public CompletableFuture allocateAddressAsync() { AllocateAddressRequest allocateRequest = AllocateAddressRequest.builder() .domain(DomainType.VPC) .build(); CompletableFuture responseFuture = getAsyncClient().allocateAddress(allocateRequest); return responseFuture.thenApply(AllocateAddressResponse::allocationId).whenComplete((result, ex) -> { if (ex != null) { throw new RuntimeException("Failed to allocate address", ex); } }); } /** * Asynchronously describes the state of an EC2 instance. * The paginator helps you iterate over multiple pages of results. * * @param newInstanceId the ID of the EC2 instance to describe * @return a {@link CompletableFuture} that, when completed, contains a string describing the state of the EC2 instance */ public CompletableFuture describeEC2InstancesAsync(String newInstanceId) { DescribeInstancesRequest request = DescribeInstancesRequest.builder() .instanceIds(newInstanceId) .build(); DescribeInstancesPublisher paginator = getAsyncClient().describeInstancesPaginator(request); AtomicReference publicIpAddressRef = new AtomicReference<>(); return paginator.subscribe(response -> { response.reservations().stream() .flatMap(reservation -> reservation.instances().stream()) .filter(instance -> instance.instanceId().equals(newInstanceId)) .findFirst() .ifPresent(instance -> publicIpAddressRef.set(instance.publicIpAddress())); }).thenApply(v -> { String publicIpAddress = publicIpAddressRef.get(); if (publicIpAddress == null) { throw new RuntimeException("Instance with ID " + newInstanceId + " not found."); } return publicIpAddress; }).exceptionally(ex -> { logger.info("Failed to describe instances: " + ex.getMessage()); throw new RuntimeException("Failed to describe instances", ex); }); } /** * Runs an EC2 instance asynchronously. * * @param instanceType The instance type to use for the EC2 instance. * @param keyName The name of the key pair to associate with the EC2 instance. * @param groupName The name of the security group to associate with the EC2 instance. * @param amiId The ID of the Amazon Machine Image (AMI) to use for the EC2 instance. * @return A {@link CompletableFuture} that completes with the ID of the started EC2 instance. * @throws RuntimeException If there is an error running the EC2 instance. */ public CompletableFuture runInstanceAsync(String instanceType, String keyName, String groupName, String amiId) { RunInstancesRequest runRequest = RunInstancesRequest.builder() .instanceType(instanceType) .keyName(keyName) .securityGroups(groupName) .maxCount(1) .minCount(1) .imageId(amiId) .build(); CompletableFuture responseFuture = getAsyncClient().runInstances(runRequest); return responseFuture.thenCompose(response -> { String instanceIdVal = response.instances().get(0).instanceId(); System.out.println("Going to start an EC2 instance and use a waiter to wait for it to be in running state"); return getAsyncClient().waiter() .waitUntilInstanceExists(r -> r.instanceIds(instanceIdVal)) .thenCompose(waitResponse -> getAsyncClient().waiter() .waitUntilInstanceRunning(r -> r.instanceIds(instanceIdVal)) .thenApply(runningResponse -> instanceIdVal)); }).exceptionally(throwable -> { // Handle any exceptions that occurred during the async call throw new RuntimeException("Failed to run EC2 instance: " + throwable.getMessage(), throwable); }); } /** * Asynchronously retrieves the instance types available in the current AWS region. *

* This method uses the AWS SDK's asynchronous API to fetch the available instance types * and then processes the response. It logs the memory information, network information, * and instance type for each instance type returned. Additionally, it returns a * {@link CompletableFuture} that resolves to the instance type string for the "t2.2xlarge" * instance type, if it is found in the response. If the "t2.2xlarge" instance type is not * found, an empty string is returned. *

* * @return a {@link CompletableFuture} that resolves to the instance type string for the * "t2.2xlarge" instance type, or an empty string if the instance type is not found */ public CompletableFuture getInstanceTypesAsync() { DescribeInstanceTypesRequest typesRequest = DescribeInstanceTypesRequest.builder() .maxResults(10) .build(); CompletableFuture response = getAsyncClient().describeInstanceTypes(typesRequest); response.whenComplete((resp, ex) -> { if (resp != null) { List instanceTypes = resp.instanceTypes(); for (InstanceTypeInfo type : instanceTypes) { logger.info("The memory information of this type is " + type.memoryInfo().sizeInMiB()); logger.info("Network information is " + type.networkInfo().toString()); logger.info("Instance type is " + type.instanceType().toString()); } } else { throw (RuntimeException) ex; } }); return response.thenApply(resp -> { for (InstanceTypeInfo type : resp.instanceTypes()) { String instanceType = type.instanceType().toString(); if (instanceType.equals("t2.2xlarge")) { return instanceType; } } return ""; }); } /** * Asynchronously describes an AWS EC2 image with the specified image ID. * * @param imageId the ID of the image to be described * @return a {@link CompletableFuture} that, when completed, contains the ID of the described image * @throws RuntimeException if no images are found with the provided image ID, or if an error occurs during the AWS API call */ public CompletableFuture describeImageAsync(String imageId) { DescribeImagesRequest imagesRequest = DescribeImagesRequest.builder() .imageIds(imageId) .build(); AtomicReference imageIdRef = new AtomicReference<>(); DescribeImagesPublisher paginator = getAsyncClient().describeImagesPaginator(imagesRequest); return paginator.subscribe(response -> { response.images().stream() .filter(image -> image.imageId().equals(imageId)) .findFirst() .ifPresent(image -> { logger.info("The description of the image is " + image.description()); logger.info("The name of the image is " + image.name()); imageIdRef.set(image.imageId()); }); }).thenApply(v -> { String id = imageIdRef.get(); if (id == null) { throw new RuntimeException("No images found with the provided image ID."); } return id; }).exceptionally(ex -> { logger.info("Failed to describe image: " + ex.getMessage()); throw new RuntimeException("Failed to describe image", ex); }); } /** * Retrieves the parameter values asynchronously using the AWS Systems Manager (SSM) API. * * @return a {@link CompletableFuture} that holds the response from the SSM API call to get parameters by path */ public CompletableFuture getParaValuesAsync() { SsmAsyncClient ssmClient = SsmAsyncClient.builder() .region(Region.US_EAST_1) .build(); GetParametersByPathRequest parameterRequest = GetParametersByPathRequest.builder() .path("/aws/service/ami-amazon-linux-latest") .build(); // Create a CompletableFuture to hold the final result. CompletableFuture responseFuture = new CompletableFuture<>(); ssmClient.getParametersByPath(parameterRequest) .whenComplete((response, exception) -> { if (exception != null) { responseFuture.completeExceptionally(new RuntimeException("Failed to get parameters by path", exception)); } else { responseFuture.complete(response); } }); return responseFuture; } /** * Asynchronously describes the security groups for the specified group ID. * * @param groupName the name of the security group to describe * @return a {@link CompletableFuture} that represents the asynchronous operation * of describing the security groups. The future will complete with a * {@link DescribeSecurityGroupsResponse} object that contains the * security group information. */ public CompletableFuture describeSecurityGroupArnByNameAsync(String groupName) { DescribeSecurityGroupsRequest request = DescribeSecurityGroupsRequest.builder() .groupNames(groupName) .build(); DescribeSecurityGroupsPublisher paginator = getAsyncClient().describeSecurityGroupsPaginator(request); AtomicReference groupIdRef = new AtomicReference<>(); return paginator.subscribe(response -> { response.securityGroups().stream() .filter(securityGroup -> securityGroup.groupName().equals(groupName)) .findFirst() .ifPresent(securityGroup -> groupIdRef.set(securityGroup.groupId())); }).thenApply(v -> { String groupId = groupIdRef.get(); if (groupId == null) { throw new RuntimeException("No security group found with the name: " + groupName); } return groupId; }).exceptionally(ex -> { logger.info("Failed to describe security group: " + ex.getMessage()); throw new RuntimeException("Failed to describe security group", ex); }); } /** * Creates a new security group asynchronously with the specified group name, description, and VPC ID. It also * authorizes inbound traffic on ports 80 and 22 from the specified IP address. * * @param groupName the name of the security group to create * @param groupDesc the description of the security group * @param vpcId the ID of the VPC in which to create the security group * @param myIpAddress the IP address from which to allow inbound traffic (e.g., "192.168.1.1/0" to allow traffic from * any IP address in the 192.168.1.0/24 subnet) * @return a CompletableFuture that, when completed, returns the ID of the created security group * @throws RuntimeException if there was a failure creating the security group or authorizing the inbound traffic */ public CompletableFuture createSecurityGroupAsync(String groupName, String groupDesc, String vpcId, String myIpAddress) { CreateSecurityGroupRequest createRequest = CreateSecurityGroupRequest.builder() .groupName(groupName) .description(groupDesc) .vpcId(vpcId) .build(); return getAsyncClient().createSecurityGroup(createRequest) .thenCompose(createResponse -> { String groupId = createResponse.groupId(); IpRange ipRange = IpRange.builder() .cidrIp(myIpAddress + "/32") .build(); IpPermission ipPerm = IpPermission.builder() .ipProtocol("tcp") .toPort(80) .fromPort(80) .ipRanges(ipRange) .build(); IpPermission ipPerm2 = IpPermission.builder() .ipProtocol("tcp") .toPort(22) .fromPort(22) .ipRanges(ipRange) .build(); AuthorizeSecurityGroupIngressRequest authRequest = AuthorizeSecurityGroupIngressRequest.builder() .groupName(groupName) .ipPermissions(ipPerm, ipPerm2) .build(); return getAsyncClient().authorizeSecurityGroupIngress(authRequest) .thenApply(authResponse -> groupId); }) .whenComplete((result, exception) -> { if (exception != null) { if (exception instanceof CompletionException && exception.getCause() instanceof Ec2Exception) { throw (Ec2Exception) exception.getCause(); } else { throw new RuntimeException("Failed to create security group: " + exception.getMessage(), exception); } } }); } /** * Asynchronously describes the key pairs associated with the current AWS account. * * @return a {@link CompletableFuture} containing the {@link DescribeKeyPairsResponse} object, which provides * information about the key pairs. */ public CompletableFuture describeKeysAsync() { CompletableFuture responseFuture = getAsyncClient().describeKeyPairs(); responseFuture.whenComplete((response, exception) -> { if (exception != null) { throw new RuntimeException("Failed to describe key pairs: " + exception.getMessage(), exception); } }); return responseFuture; } /** * Creates a new key pair asynchronously. * * @param keyName the name of the key pair to create * @param fileName the name of the file to write the key material to * @return a {@link CompletableFuture} that represents the asynchronous operation * of creating the key pair and writing the key material to a file */ public CompletableFuture createKeyPairAsync(String keyName, String fileName) { CreateKeyPairRequest request = CreateKeyPairRequest.builder() .keyName(keyName) .build(); CompletableFuture responseFuture = getAsyncClient().createKeyPair(request); responseFuture.whenComplete((response, exception) -> { if (response != null) { try { BufferedWriter writer = new BufferedWriter(new FileWriter(fileName)); writer.write(response.keyMaterial()); writer.close(); } catch (IOException e) { throw new RuntimeException("Failed to write key material to file: " + e.getMessage(), e); } } else { throw new RuntimeException("Failed to create key pair: " + exception.getMessage(), exception); } }); return responseFuture; } /** * Describes the first default VPC asynchronously and using a paginator. * * @return a {@link CompletableFuture} that, when completed, contains the first default VPC found.\ */ public CompletableFuture describeFirstEC2VpcAsync() { Filter myFilter = Filter.builder() .name("is-default") .values("true") .build(); DescribeVpcsRequest request = DescribeVpcsRequest.builder() .filters(myFilter) .build(); DescribeVpcsPublisher paginator = getAsyncClient().describeVpcsPaginator(request); AtomicReference vpcRef = new AtomicReference<>(); return paginator.subscribe(response -> { response.vpcs().stream() .findFirst() .ifPresent(vpcRef::set); }).thenApply(v -> { Vpc vpc = vpcRef.get(); if (vpc == null) { throw new RuntimeException("Default VPC not found"); } return vpc; }).exceptionally(ex -> { logger.info("Failed to describe VPCs: " + ex.getMessage()); throw new RuntimeException("Failed to describe VPCs", ex); }); } /** * Stops the EC2 instance with the specified ID asynchronously and waits for the instance to stop. * * @param instanceId the ID of the EC2 instance to stop * @return a {@link CompletableFuture} that completes when the instance has been stopped, or exceptionally if an error occurs */ public CompletableFuture stopInstanceAsync(String instanceId) { StopInstancesRequest stopRequest = StopInstancesRequest.builder() .instanceIds(instanceId) .build(); DescribeInstancesRequest describeRequest = DescribeInstancesRequest.builder() .instanceIds(instanceId) .build(); Ec2AsyncWaiter ec2Waiter = Ec2AsyncWaiter.builder() .client(getAsyncClient()) .build(); CompletableFuture resultFuture = new CompletableFuture<>(); logger.info("Stopping instance " + instanceId + " and waiting for it to stop."); getAsyncClient().stopInstances(stopRequest) .thenCompose(response -> { if (response.stoppingInstances().isEmpty()) { return CompletableFuture.failedFuture(new RuntimeException("No instances were stopped. Please check the instance ID: " + instanceId)); } return ec2Waiter.waitUntilInstanceStopped(describeRequest); }) .thenAccept(waiterResponse -> { logger.info("Successfully stopped instance " + instanceId); resultFuture.complete(null); }) .exceptionally(throwable -> { logger.error("Failed to stop instance " + instanceId + ": " + throwable.getMessage(), throwable); resultFuture.completeExceptionally(new RuntimeException("Failed to stop instance: " + throwable.getMessage(), throwable)); return null; }); return resultFuture; } /** * Starts an Amazon EC2 instance asynchronously and waits until it is in the "running" state. * * @param instanceId the ID of the instance to start * @return a {@link CompletableFuture} that completes when the instance has been started and is in the "running" state, or exceptionally if an error occurs */ public CompletableFuture startInstanceAsync(String instanceId) { StartInstancesRequest startRequest = StartInstancesRequest.builder() .instanceIds(instanceId) .build(); Ec2AsyncWaiter ec2Waiter = Ec2AsyncWaiter.builder() .client(getAsyncClient()) .build(); DescribeInstancesRequest describeRequest = DescribeInstancesRequest.builder() .instanceIds(instanceId) .build(); logger.info("Starting instance " + instanceId + " and waiting for it to run."); CompletableFuture resultFuture = new CompletableFuture<>(); return getAsyncClient().startInstances(startRequest) .thenCompose(response -> ec2Waiter.waitUntilInstanceRunning(describeRequest) ) .thenAccept(waiterResponse -> { logger.info("Successfully started instance " + instanceId); resultFuture.complete(null); }) .exceptionally(throwable -> { resultFuture.completeExceptionally(new RuntimeException("Failed to start instance: " + throwable.getMessage(), throwable)); return null; }); } } ``` + For API details, see the following topics in *AWS SDK for Java 2.x API Reference*. + [AllocateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AllocateAddress) + [AssociateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AssociateAddress) + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AuthorizeSecurityGroupIngress) + [CreateKeyPair](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateKeyPair) + [CreateSecurityGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateSecurityGroup) + [DeleteKeyPair](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteKeyPair) + [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteSecurityGroup) + [DescribeImages](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeImages) + [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstanceTypes) + [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstances) + [DescribeKeyPairs](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeKeyPairs) + [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeSecurityGroups) + [DisassociateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DisassociateAddress) + [ReleaseAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/ReleaseAddress) + [RunInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/RunInstances) + [StartInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/StartInstances) + [StopInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/StopInstances) + [TerminateInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/TerminateInstances) + [UnmonitorInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/UnmonitorInstances) ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). This file contains a list of common actions used with EC2. The steps are constructed with a Scenario framework that simplifies running an interactive example. For the full context, visit the GitHub repository. ``` import { tmpdir } from "node:os"; import { writeFile, mkdtemp, rm } from "node:fs/promises"; import { join } from "node:path"; import { get } from "node:http"; import { AllocateAddressCommand, AssociateAddressCommand, AuthorizeSecurityGroupIngressCommand, CreateKeyPairCommand, CreateSecurityGroupCommand, DeleteKeyPairCommand, DeleteSecurityGroupCommand, DisassociateAddressCommand, paginateDescribeImages, paginateDescribeInstances, paginateDescribeInstanceTypes, ReleaseAddressCommand, RunInstancesCommand, StartInstancesCommand, StopInstancesCommand, TerminateInstancesCommand, waitUntilInstanceStatusOk, waitUntilInstanceStopped, waitUntilInstanceTerminated, } from "@aws-sdk/client-ec2"; import { ScenarioAction, ScenarioInput, ScenarioOutput, } from "@aws-doc-sdk-examples/lib/scenario/index.js"; import { paginateGetParametersByPath, SSMClient } from "@aws-sdk/client-ssm"; /** * @typedef {{ * ec2Client: import('@aws-sdk/client-ec2').EC2Client, * errors: Error[], * keyPairId?: string, * tmpDirectory?: string, * securityGroupId?: string, * ipAddress?: string, * images?: import('@aws-sdk/client-ec2').Image[], * image?: import('@aws-sdk/client-ec2').Image, * instanceTypes?: import('@aws-sdk/client-ec2').InstanceTypeInfo[], * instanceId?: string, * instanceIpAddress?: string, * allocationId?: string, * allocatedIpAddress?: string, * associationId?: string, * }} State */ /** * A skip function provided to the `skipWhen` of a Step when you want * to ignore that step if any errors have occurred. * @param {State} state */ const skipWhenErrors = (state) => state.errors.length > 0; const MAX_WAITER_TIME_IN_SECONDS = 60 * 8; export const confirm = new ScenarioInput("confirmContinue", "Continue?", { type: "confirm", skipWhen: skipWhenErrors, }); export const exitOnNoConfirm = new ScenarioAction( "exitOnConfirmContinueFalse", (/** @type { { earlyExit: boolean } & Record} */ state) => { if (!state[confirm.name]) { state.earlyExit = true; } }, { skipWhen: skipWhenErrors, }, ); export const greeting = new ScenarioOutput( "greeting", ` Welcome to the Amazon EC2 basic usage scenario. Before you launch an instances, you'll need to provide a few things: - A key pair - This is for SSH access to your EC2 instance. You only need to provide the name. - A security group - This is used for configuring access to your instance. Again, only the name is needed. - An IP address - Your public IP address will be fetched. - An Amazon Machine Image (AMI) - A compatible instance type`, { header: true, preformatted: true, skipWhen: skipWhenErrors }, ); export const provideKeyPairName = new ScenarioInput( "keyPairName", "Provide a name for a new key pair.", { type: "input", default: "ec2-example-key-pair", skipWhen: skipWhenErrors }, ); export const createKeyPair = new ScenarioAction( "createKeyPair", async (/** @type {State} */ state) => { try { // Create a key pair in Amazon EC2. const { KeyMaterial, KeyPairId } = await state.ec2Client.send( // A unique name for the key pair. Up to 255 ASCII characters. new CreateKeyPairCommand({ KeyName: state[provideKeyPairName.name] }), ); state.keyPairId = KeyPairId; // Save the private key in a temporary location. state.tmpDirectory = await mkdtemp(join(tmpdir(), "ec2-scenario-tmp")); await writeFile( `${state.tmpDirectory}/${state[provideKeyPairName.name]}.pem`, KeyMaterial, { mode: 0o400, }, ); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidKeyPair.Duplicate" ) { caught.message = `${caught.message}. Try another key name.`; } state.errors.push(caught); } }, { skipWhen: skipWhenErrors }, ); export const logKeyPair = new ScenarioOutput( "logKeyPair", (/** @type {State} */ state) => `Created the key pair ${state[provideKeyPairName.name]}.`, { skipWhen: skipWhenErrors }, ); export const confirmDeleteKeyPair = new ScenarioInput( "confirmDeleteKeyPair", "Do you want to delete the key pair?", { type: "confirm", // Don't do anything when a key pair was never created. skipWhen: (/** @type {State} */ state) => !state.keyPairId, }, ); export const maybeDeleteKeyPair = new ScenarioAction( "deleteKeyPair", async (/** @type {State} */ state) => { try { // Delete a key pair by name from EC2 await state.ec2Client.send( new DeleteKeyPairCommand({ KeyName: state[provideKeyPairName.name] }), ); } catch (caught) { if ( caught instanceof Error && // Occurs when a required parameter (e.g. KeyName) is undefined. caught.name === "MissingParameter" ) { caught.message = `${caught.message}. Did you provide the required value?`; } state.errors.push(caught); } }, { // Don't do anything when there's no key pair to delete or the user chooses // to keep it. skipWhen: (/** @type {State} */ state) => !state.keyPairId || !state[confirmDeleteKeyPair.name], }, ); export const provideSecurityGroupName = new ScenarioInput( "securityGroupName", "Provide a name for a new security group.", { type: "input", default: "ec2-scenario-sg", skipWhen: skipWhenErrors }, ); export const createSecurityGroup = new ScenarioAction( "createSecurityGroup", async (/** @type {State} */ state) => { try { // Create a new security group that will be used to configure ingress/egress for // an EC2 instance. const { GroupId } = await state.ec2Client.send( new CreateSecurityGroupCommand({ GroupName: state[provideSecurityGroupName.name], Description: "A security group for the Amazon EC2 example.", }), ); state.securityGroupId = GroupId; } catch (caught) { if (caught instanceof Error && caught.name === "InvalidGroup.Duplicate") { caught.message = `${caught.message}. Please provide a different name for your security group.`; } state.errors.push(caught); } }, { skipWhen: skipWhenErrors }, ); export const logSecurityGroup = new ScenarioOutput( "logSecurityGroup", (/** @type {State} */ state) => `Created the security group ${state.securityGroupId}.`, { skipWhen: skipWhenErrors }, ); export const confirmDeleteSecurityGroup = new ScenarioInput( "confirmDeleteSecurityGroup", "Do you want to delete the security group?", { type: "confirm", // Don't do anything when a security group was never created. skipWhen: (/** @type {State} */ state) => !state.securityGroupId, }, ); export const maybeDeleteSecurityGroup = new ScenarioAction( "deleteSecurityGroup", async (/** @type {State} */ state) => { try { // Delete the security group if the 'skipWhen' condition below is not met. await state.ec2Client.send( new DeleteSecurityGroupCommand({ GroupId: state.securityGroupId, }), ); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidGroupId.Malformed" ) { caught.message = `${caught.message}. Please provide a valid GroupId.`; } state.errors.push(caught); } }, { // Don't do anything when there's no security group to delete // or the user chooses to keep it. skipWhen: (/** @type {State} */ state) => !state.securityGroupId || !state[confirmDeleteSecurityGroup.name], }, ); export const authorizeSecurityGroupIngress = new ScenarioAction( "authorizeSecurity", async (/** @type {State} */ state) => { try { // Get the public IP address of the machine running this example. const ipAddress = await new Promise((res, rej) => { get("http://checkip.amazonaws.com", (response) => { let data = ""; response.on("data", (chunk) => { data += chunk; }); response.on("end", () => res(data.trim())); }).on("error", (err) => { rej(err); }); }); state.ipAddress = ipAddress; // Allow ingress from the IP address above to the security group. // This will allow you to SSH into the EC2 instance. const command = new AuthorizeSecurityGroupIngressCommand({ GroupId: state.securityGroupId, IpPermissions: [ { IpProtocol: "tcp", FromPort: 22, ToPort: 22, IpRanges: [{ CidrIp: `${ipAddress}/32` }], }, ], }); await state.ec2Client.send(command); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidGroupId.Malformed" ) { caught.message = `${caught.message}. Please provide a valid GroupId.`; } state.errors.push(caught); } }, { skipWhen: skipWhenErrors }, ); export const logSecurityGroupIngress = new ScenarioOutput( "logSecurityGroupIngress", (/** @type {State} */ state) => `Allowed SSH access from your public IP: ${state.ipAddress}.`, { skipWhen: skipWhenErrors }, ); export const getImages = new ScenarioAction( "images", async (/** @type {State} */ state) => { const AMIs = []; // Some AWS services publish information about common artifacts as AWS Systems Manager (SSM) // public parameters. For example, the Amazon Elastic Compute Cloud (Amazon EC2) // service publishes information about Amazon Machine Images (AMIs) as public parameters. // Create the paginator for getting images. Actions that return multiple pages of // results have paginators to simplify those calls. const getParametersByPathPaginator = paginateGetParametersByPath( { // Not storing this client in state since it's only used once. client: new SSMClient({}), }, { // The path to the public list of the latest amazon-linux instances. Path: "/aws/service/ami-amazon-linux-latest", }, ); try { for await (const page of getParametersByPathPaginator) { for (const param of page.Parameters) { // Filter by Amazon Linux 2 if (param.Name.includes("amzn2")) { AMIs.push(param.Value); } } } } catch (caught) { if (caught instanceof Error && caught.name === "InvalidFilterValue") { caught.message = `${caught.message} Please provide a valid filter value for paginateGetParametersByPath.`; } state.errors.push(caught); return; } const imageDetails = []; const describeImagesPaginator = paginateDescribeImages( { client: state.ec2Client }, // The images found from the call to SSM. { ImageIds: AMIs }, ); try { // Get more details for the images found above. for await (const page of describeImagesPaginator) { imageDetails.push(...(page.Images || [])); } // Store the image details for later use. state.images = imageDetails; } catch (caught) { if (caught instanceof Error && caught.name === "InvalidAMIID.NotFound") { caught.message = `${caught.message}. Please provide a valid image id.`; } state.errors.push(caught); } }, { skipWhen: skipWhenErrors }, ); export const provideImage = new ScenarioInput( "image", "Select one of the following images.", { type: "select", choices: (/** @type { State } */ state) => state.images.map((image) => ({ name: `${image.Description}`, value: image, })), default: (/** @type { State } */ state) => state.images[0], skipWhen: skipWhenErrors, }, ); export const getCompatibleInstanceTypes = new ScenarioAction( "getCompatibleInstanceTypes", async (/** @type {State} */ state) => { // Get more details about instance types that match the architecture of // the provided image. const paginator = paginateDescribeInstanceTypes( { client: state.ec2Client, pageSize: 25 }, { Filters: [ { Name: "processor-info.supported-architecture", // The value selected from provideImage() Values: [state.image.Architecture], }, // Filter for smaller, less expensive, types. { Name: "instance-type", Values: ["*.micro", "*.small"] }, ], }, ); const instanceTypes = []; try { for await (const page of paginator) { if (page.InstanceTypes.length) { instanceTypes.push(...(page.InstanceTypes || [])); } } if (!instanceTypes.length) { state.errors.push( "No instance types matched the instance type filters.", ); } } catch (caught) { if (caught instanceof Error && caught.name === "InvalidParameterValue") { caught.message = `${caught.message}. Please check the provided values and try again.`; } state.errors.push(caught); } state.instanceTypes = instanceTypes; }, { skipWhen: skipWhenErrors }, ); export const provideInstanceType = new ScenarioInput( "instanceType", "Select an instance type.", { choices: (/** @type {State} */ state) => state.instanceTypes.map((instanceType) => ({ name: `${instanceType.InstanceType} - Memory:${instanceType.MemoryInfo.SizeInMiB}`, value: instanceType.InstanceType, })), type: "select", default: (/** @type {State} */ state) => state.instanceTypes[0].InstanceType, skipWhen: skipWhenErrors, }, ); export const runInstance = new ScenarioAction( "runInstance", async (/** @type { State } */ state) => { const { Instances } = await state.ec2Client.send( new RunInstancesCommand({ KeyName: state[provideKeyPairName.name], SecurityGroupIds: [state.securityGroupId], ImageId: state.image.ImageId, InstanceType: state[provideInstanceType.name], // Availability Zones have capacity limitations that may impact your ability to launch instances. // The `RunInstances` operation will only succeed if it can allocate at least the `MinCount` of instances. // However, EC2 will attempt to launch up to the `MaxCount` of instances, even if the full request cannot be satisfied. // If you need a specific number of instances, use `MinCount` and `MaxCount` set to the same value. // If you want to launch up to a certain number of instances, use `MaxCount` and let EC2 provision as many as possible. // If you require a minimum number of instances, but do not want to exceed a maximum, use both `MinCount` and `MaxCount`. MinCount: 1, MaxCount: 1, }), ); state.instanceId = Instances[0].InstanceId; try { // Poll `DescribeInstanceStatus` until status is "ok". await waitUntilInstanceStatusOk( { client: state.ec2Client, maxWaitTime: MAX_WAITER_TIME_IN_SECONDS, }, { InstanceIds: [Instances[0].InstanceId] }, ); } catch (caught) { if (caught instanceof Error && caught.name === "TimeoutError") { caught.message = `${caught.message}. Try increasing the maxWaitTime in the waiter.`; } state.errors.push(caught); } }, { skipWhen: skipWhenErrors }, ); export const logRunInstance = new ScenarioOutput( "logRunInstance", "The next step is to run your EC2 instance for the first time. This can take a few minutes.", { header: true, skipWhen: skipWhenErrors }, ); export const describeInstance = new ScenarioAction( "describeInstance", async (/** @type { State } */ state) => { /** @type { import("@aws-sdk/client-ec2").Instance[] } */ const instances = []; try { const paginator = paginateDescribeInstances( { client: state.ec2Client, }, { // Only get our created instance. InstanceIds: [state.instanceId], }, ); for await (const page of paginator) { for (const reservation of page.Reservations) { instances.push(...reservation.Instances); } } if (instances.length !== 1) { throw new Error(`Instance ${state.instanceId} not found.`); } // The only info we need is the IP address for SSH purposes. state.instanceIpAddress = instances[0].PublicIpAddress; } catch (caught) { if (caught instanceof Error && caught.name === "InvalidParameterValue") { caught.message = `${caught.message}. Please check provided values and try again.`; } state.errors.push(caught); } }, { skipWhen: skipWhenErrors }, ); export const logSSHConnectionInfo = new ScenarioOutput( "logSSHConnectionInfo", (/** @type { State } */ state) => `You can now SSH into your instance using the following command: ssh -i ${state.tmpDirectory}/${state[provideKeyPairName.name]}.pem ec2-user@${state.instanceIpAddress}`, { preformatted: true, skipWhen: skipWhenErrors }, ); export const logStopInstance = new ScenarioOutput( "logStopInstance", "Stopping your EC2 instance.", { skipWhen: skipWhenErrors }, ); export const stopInstance = new ScenarioAction( "stopInstance", async (/** @type { State } */ state) => { try { await state.ec2Client.send( new StopInstancesCommand({ InstanceIds: [state.instanceId], }), ); await waitUntilInstanceStopped( { client: state.ec2Client, maxWaitTime: MAX_WAITER_TIME_IN_SECONDS, }, { InstanceIds: [state.instanceId] }, ); } catch (caught) { if (caught instanceof Error && caught.name === "TimeoutError") { caught.message = `${caught.message}. Try increasing the maxWaitTime in the waiter.`; } state.errors.push(caught); } }, // Don't try to stop an instance that doesn't exist. { skipWhen: (/** @type { State } */ state) => !state.instanceId }, ); export const logIpAddressBehavior = new ScenarioOutput( "logIpAddressBehavior", [ "When you run an instance, by default it's assigned an IP address.", "That IP address is not static. It will change every time the instance is restarted.", "The next step is to stop and restart your instance to demonstrate this behavior.", ].join(" "), { header: true, skipWhen: skipWhenErrors }, ); export const logStartInstance = new ScenarioOutput( "logStartInstance", (/** @type { State } */ state) => `Starting instance ${state.instanceId}`, { skipWhen: skipWhenErrors }, ); export const startInstance = new ScenarioAction( "startInstance", async (/** @type { State } */ state) => { try { await state.ec2Client.send( new StartInstancesCommand({ InstanceIds: [state.instanceId], }), ); await waitUntilInstanceStatusOk( { client: state.ec2Client, maxWaitTime: MAX_WAITER_TIME_IN_SECONDS, }, { InstanceIds: [state.instanceId] }, ); } catch (caught) { if (caught instanceof Error && caught.name === "TimeoutError") { caught.message = `${caught.message}. Try increasing the maxWaitTime in the waiter.`; } state.errors.push(caught); } }, { skipWhen: skipWhenErrors }, ); export const logIpAllocation = new ScenarioOutput( "logIpAllocation", [ "It is possible to have a static IP address.", "To demonstrate this, an IP will be allocated and associated to your EC2 instance.", ].join(" "), { header: true, skipWhen: skipWhenErrors }, ); export const allocateIp = new ScenarioAction( "allocateIp", async (/** @type { State } */ state) => { try { // An Elastic IP address is allocated to your AWS account, and is yours until you release it. const { AllocationId, PublicIp } = await state.ec2Client.send( new AllocateAddressCommand({}), ); state.allocationId = AllocationId; state.allocatedIpAddress = PublicIp; } catch (caught) { if (caught instanceof Error && caught.name === "MissingParameter") { caught.message = `${caught.message}. Did you provide these values?`; } state.errors.push(caught); } }, { skipWhen: skipWhenErrors }, ); export const associateIp = new ScenarioAction( "associateIp", async (/** @type { State } */ state) => { try { // Associate an allocated IP address to an EC2 instance. An IP address can be allocated // with the AllocateAddress action. const { AssociationId } = await state.ec2Client.send( new AssociateAddressCommand({ AllocationId: state.allocationId, InstanceId: state.instanceId, }), ); state.associationId = AssociationId; // Update the IP address that is being tracked to match // the one just associated. state.instanceIpAddress = state.allocatedIpAddress; } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidAllocationID.NotFound" ) { caught.message = `${caught.message}. Did you provide the ID of a valid Elastic IP address AllocationId?`; } state.errors.push(caught); } }, { skipWhen: skipWhenErrors }, ); export const logStaticIpProof = new ScenarioOutput( "logStaticIpProof", "The IP address should remain the same even after stopping and starting the instance.", { header: true, skipWhen: skipWhenErrors }, ); export const logCleanUp = new ScenarioOutput( "logCleanUp", "That's it! You can choose to clean up the resources now, or clean them up on your own later.", { header: true, skipWhen: skipWhenErrors }, ); export const confirmDisassociateAddress = new ScenarioInput( "confirmDisassociateAddress", "Do you want to disassociate and release the static IP address created earlier?", { type: "confirm", skipWhen: (/** @type { State } */ state) => !state.associationId, }, ); export const maybeDisassociateAddress = new ScenarioAction( "maybeDisassociateAddress", async (/** @type { State } */ state) => { try { await state.ec2Client.send( new DisassociateAddressCommand({ AssociationId: state.associationId, }), ); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidAssociationID.NotFound" ) { caught.message = `${caught.message}. Please provide a valid association ID.`; } state.errors.push(caught); } }, { skipWhen: (/** @type { State } */ state) => !state[confirmDisassociateAddress.name] || !state.associationId, }, ); export const maybeReleaseAddress = new ScenarioAction( "maybeReleaseAddress", async (/** @type { State } */ state) => { try { await state.ec2Client.send( new ReleaseAddressCommand({ AllocationId: state.allocationId, }), ); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidAllocationID.NotFound" ) { caught.message = `${caught.message}. Please provide a valid AllocationID.`; } state.errors.push(caught); } }, { skipWhen: (/** @type { State } */ state) => !state[confirmDisassociateAddress.name] || !state.allocationId, }, ); export const confirmTerminateInstance = new ScenarioInput( "confirmTerminateInstance", "Do you want to terminate the instance?", // Don't do anything when an instance was never run. { skipWhen: (/** @type { State } */ state) => !state.instanceId, type: "confirm", }, ); export const maybeTerminateInstance = new ScenarioAction( "terminateInstance", async (/** @type { State } */ state) => { try { await state.ec2Client.send( new TerminateInstancesCommand({ InstanceIds: [state.instanceId], }), ); await waitUntilInstanceTerminated( { client: state.ec2Client }, { InstanceIds: [state.instanceId] }, ); } catch (caught) { if (caught instanceof Error && caught.name === "TimeoutError") { caught.message = `${caught.message}. Try increasing the maxWaitTime in the waiter.`; } state.errors.push(caught); } }, { // Don't do anything when there's no instance to terminate or the // use chooses not to terminate. skipWhen: (/** @type { State } */ state) => !state.instanceId || !state[confirmTerminateInstance.name], }, ); export const deleteTemporaryDirectory = new ScenarioAction( "deleteTemporaryDirectory", async (/** @type { State } */ state) => { try { await rm(state.tmpDirectory, { recursive: true }); } catch (caught) { state.errors.push(caught); } }, ); export const logErrors = new ScenarioOutput( "logErrors", (/** @type {State}*/ state) => { const errorList = state.errors .map((err) => ` - ${err.name}: ${err.message}`) .join("\n"); return `Scenario errors found:\n${errorList}`; }, { preformatted: true, header: true, // Don't log errors when there aren't any! skipWhen: (/** @type {State} */ state) => state.errors.length === 0, }, ); ``` + For API details, see the following topics in *AWS SDK for JavaScript API Reference*. + [AllocateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AllocateAddressCommand) + [AssociateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AssociateAddressCommand) + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AuthorizeSecurityGroupIngressCommand) + [CreateKeyPair](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateKeyPairCommand) + [CreateSecurityGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateSecurityGroupCommand) + [DeleteKeyPair](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteKeyPairCommand) + [DeleteSecurityGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteSecurityGroupCommand) + [DescribeImages](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeImagesCommand) + [DescribeInstanceTypes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstanceTypesCommand) + [DescribeInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstancesCommand) + [DescribeKeyPairs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeKeyPairsCommand) + [DescribeSecurityGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSecurityGroupsCommand) + [DisassociateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DisassociateAddressCommand) + [ReleaseAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/ReleaseAddressCommand) + [RunInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/RunInstancesCommand) + [StartInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/StartInstancesCommand) + [StopInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/StopInstancesCommand) + [TerminateInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/TerminateInstancesCommand) + [UnmonitorInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/UnmonitorInstancesCommand) ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` /** Before running this Kotlin code example, set up your development environment, including your credentials. For more information, see the following documentation topic: https://docs.aws.amazon.com/sdk-for-kotlin/latest/developer-guide/setup.html This Kotlin example performs the following tasks: 1. Creates an RSA key pair and saves the private key data as a .pem file. 2. Lists key pairs. 3. Creates a security group for the default VPC. 4. Displays security group information. 5. Gets a list of Amazon Linux 2 AMIs and selects one. 6. Gets more information about the image. 7. Gets a list of instance types that are compatible with the selected AMI’s architecture. 8. Creates an instance with the key pair, security group, AMI, and an instance type. 9. Displays information about the instance. 10. Stops the instance and waits for it to stop. 11. Starts the instance and waits for it to start. 12. Allocates an Elastic IP address and associates it with the instance. 13. Displays SSH connection info for the instance. 14. Disassociates and deletes the Elastic IP address. 15. Terminates the instance. 16. Deletes the security group. 17. Deletes the key pair. */ val DASHES = String(CharArray(80)).replace("\u0000", "-") suspend fun main(args: Array) { val usage = """ Usage: Where: keyName - A key pair name (for example, TestKeyPair). fileName - A file name where the key information is written to. groupName - The name of the security group. groupDesc - The description of the security group. vpcId - A VPC ID. You can get this value from the AWS Management Console. myIpAddress - The IP address of your development machine. """ if (args.size != 6) { println(usage) exitProcess(0) } val keyName = args[0] val fileName = args[1] val groupName = args[2] val groupDesc = args[3] val vpcId = args[4] val myIpAddress = args[5] var newInstanceId: String? = "" println(DASHES) println("Welcome to the Amazon EC2 example scenario.") println(DASHES) println(DASHES) println("1. Create an RSA key pair and save the private key material as a .pem file.") createKeyPairSc(keyName, fileName) println(DASHES) println(DASHES) println("2. List key pairs.") describeEC2KeysSc() println(DASHES) println(DASHES) println("3. Create a security group.") val groupId = createEC2SecurityGroupSc(groupName, groupDesc, vpcId, myIpAddress) println(DASHES) println(DASHES) println("4. Display security group info for the newly created security group.") describeSecurityGroupsSc(groupId.toString()) println(DASHES) println(DASHES) println("5. Get a list of Amazon Linux 2 AMIs and select one with amzn2 in the name.") val instanceId = getParaValuesSc() if (instanceId == "") { println("The instance Id value isn't valid.") exitProcess(0) } println("The instance Id is $instanceId.") println(DASHES) println(DASHES) println("6. Get more information about an amzn2 image and return the AMI value.") val amiValue = instanceId?.let { describeImageSc(it) } if (instanceId == "") { println("The instance Id value is invalid.") exitProcess(0) } println("The AMI value is $amiValue.") println(DASHES) println(DASHES) println("7. Get a list of instance types.") val instanceType = getInstanceTypesSc() println(DASHES) println(DASHES) println("8. Create an instance.") if (amiValue != null) { newInstanceId = runInstanceSc(instanceType, keyName, groupName, amiValue) println("The instance Id is $newInstanceId") } println(DASHES) println(DASHES) println("9. Display information about the running instance. ") var ipAddress = describeEC2InstancesSc(newInstanceId) println("You can SSH to the instance using this command:") println("ssh -i " + fileName + "ec2-user@" + ipAddress) println(DASHES) println(DASHES) println("10. Stop the instance.") if (newInstanceId != null) { stopInstanceSc(newInstanceId) } println(DASHES) println(DASHES) println("11. Start the instance.") if (newInstanceId != null) { startInstanceSc(newInstanceId) } ipAddress = describeEC2InstancesSc(newInstanceId) println("You can SSH to the instance using this command:") println("ssh -i " + fileName + "ec2-user@" + ipAddress) println(DASHES) println(DASHES) println("12. Allocate an Elastic IP address and associate it with the instance.") val allocationId = allocateAddressSc() println("The allocation Id value is $allocationId") val associationId = associateAddressSc(newInstanceId, allocationId) println("The associate Id value is $associationId") println(DASHES) println(DASHES) println("13. Describe the instance again.") ipAddress = describeEC2InstancesSc(newInstanceId) println("You can SSH to the instance using this command:") println("ssh -i " + fileName + "ec2-user@" + ipAddress) println(DASHES) println(DASHES) println("14. Disassociate and release the Elastic IP address.") disassociateAddressSc(associationId) releaseEC2AddressSc(allocationId) println(DASHES) println(DASHES) println("15. Terminate the instance and use a waiter.") if (newInstanceId != null) { terminateEC2Sc(newInstanceId) } println(DASHES) println(DASHES) println("16. Delete the security group.") if (groupId != null) { deleteEC2SecGroupSc(groupId) } println(DASHES) println(DASHES) println("17. Delete the key pair.") deleteKeysSc(keyName) println(DASHES) println(DASHES) println("You successfully completed the Amazon EC2 scenario.") println(DASHES) } suspend fun deleteKeysSc(keyPair: String) { val request = DeleteKeyPairRequest { keyName = keyPair } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.deleteKeyPair(request) println("Successfully deleted key pair named $keyPair") } } suspend fun deleteEC2SecGroupSc(groupIdVal: String) { val request = DeleteSecurityGroupRequest { groupId = groupIdVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.deleteSecurityGroup(request) println("Successfully deleted security group with Id $groupIdVal") } } suspend fun terminateEC2Sc(instanceIdVal: String) { val ti = TerminateInstancesRequest { instanceIds = listOf(instanceIdVal) } println("Wait for the instance to terminate. This will take a few minutes.") Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.terminateInstances(ti) ec2.waitUntilInstanceTerminated { // suspend call instanceIds = listOf(instanceIdVal) } println("$instanceIdVal is terminated!") } } suspend fun releaseEC2AddressSc(allocId: String?) { val request = ReleaseAddressRequest { allocationId = allocId } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.releaseAddress(request) println("Successfully released Elastic IP address $allocId") } } suspend fun disassociateAddressSc(associationIdVal: String?) { val addressRequest = DisassociateAddressRequest { associationId = associationIdVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.disassociateAddress(addressRequest) println("You successfully disassociated the address!") } } suspend fun associateAddressSc( instanceIdVal: String?, allocationIdVal: String?, ): String? { val associateRequest = AssociateAddressRequest { instanceId = instanceIdVal allocationId = allocationIdVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val associateResponse = ec2.associateAddress(associateRequest) return associateResponse.associationId } } suspend fun allocateAddressSc(): String? { val allocateRequest = AllocateAddressRequest { domain = DomainType.Vpc } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val allocateResponse = ec2.allocateAddress(allocateRequest) return allocateResponse.allocationId } } suspend fun startInstanceSc(instanceId: String) { val request = StartInstancesRequest { instanceIds = listOf(instanceId) } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.startInstances(request) println("Waiting until instance $instanceId starts. This will take a few minutes.") ec2.waitUntilInstanceRunning { // suspend call instanceIds = listOf(instanceId) } println("Successfully started instance $instanceId") } } suspend fun stopInstanceSc(instanceId: String) { val request = StopInstancesRequest { instanceIds = listOf(instanceId) } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.stopInstances(request) println("Waiting until instance $instanceId stops. This will take a few minutes.") ec2.waitUntilInstanceStopped { // suspend call instanceIds = listOf(instanceId) } println("Successfully stopped instance $instanceId") } } suspend fun describeEC2InstancesSc(newInstanceId: String?): String { var pubAddress = "" var isRunning = false val request = DescribeInstancesRequest { instanceIds = listOf(newInstanceId.toString()) } while (!isRunning) { Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.describeInstances(request) val state = response.reservations ?.get(0) ?.instances ?.get(0) ?.state ?.name ?. value if (state != null) { if (state.compareTo("running") == 0) { println("Image id is ${response.reservations!!.get(0).instances?.get(0)?.imageId}") println("Instance type is ${response.reservations!!.get(0).instances?.get(0)?.instanceType}") println("Instance state is ${response.reservations!!.get(0).instances?.get(0)?.state}") pubAddress = response.reservations!! .get(0) .instances ?.get(0) ?.publicIpAddress .toString() println("Instance address is $pubAddress") isRunning = true } } } } return pubAddress } suspend fun runInstanceSc( instanceTypeVal: String, keyNameVal: String, groupNameVal: String, amiIdVal: String, ): String { val runRequest = RunInstancesRequest { instanceType = InstanceType.fromValue(instanceTypeVal) keyName = keyNameVal securityGroups = listOf(groupNameVal) maxCount = 1 minCount = 1 imageId = amiIdVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.runInstances(runRequest) val instanceId = response.instances?.get(0)?.instanceId println("Successfully started EC2 Instance $instanceId based on AMI $amiIdVal") return instanceId.toString() } } // Get a list of instance types. suspend fun getInstanceTypesSc(): String { var instanceType = "" val filterObs = ArrayList() val filter = Filter { name = "processor-info.supported-architecture" values = listOf("arm64") } filterObs.add(filter) val typesRequest = DescribeInstanceTypesRequest { filters = filterObs maxResults = 10 } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.describeInstanceTypes(typesRequest) response.instanceTypes?.forEach { type -> println("The memory information of this type is ${type.memoryInfo?.sizeInMib}") println("Maximum number of network cards is ${type.networkInfo?.maximumNetworkCards}") instanceType = type.instanceType.toString() } return instanceType } } // Display the Description field that corresponds to the instance Id value. suspend fun describeImageSc(instanceId: String): String? { val imagesRequest = DescribeImagesRequest { imageIds = listOf(instanceId) } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.describeImages(imagesRequest) println("The description of the first image is ${response.images?.get(0)?.description}") println("The name of the first image is ${response.images?.get(0)?.name}") // Return the image Id value. return response.images?.get(0)?.imageId } } // Get the Id value of an instance with amzn2 in the name. suspend fun getParaValuesSc(): String? { val parameterRequest = GetParametersByPathRequest { path = "/aws/service/ami-amazon-linux-latest" } SsmClient.fromEnvironment { region = "us-west-2" }.use { ssmClient -> val response = ssmClient.getParametersByPath(parameterRequest) response.parameters?.forEach { para -> println("The name of the para is: ${para.name}") println("The type of the para is: ${para.type}") println("") if (para.name?.let { filterName(it) } == true) { return para.value } } } return "" } fun filterName(name: String): Boolean { val parts = name.split("/").toTypedArray() val myValue = parts[4] return myValue.contains("amzn2") } suspend fun describeSecurityGroupsSc(groupId: String) { val request = DescribeSecurityGroupsRequest { groupIds = listOf(groupId) } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.describeSecurityGroups(request) for (group in response.securityGroups!!) { println("Found Security Group with id " + group.groupId.toString() + " and group VPC " + group.vpcId) } } } suspend fun createEC2SecurityGroupSc( groupNameVal: String?, groupDescVal: String?, vpcIdVal: String?, myIpAddress: String?, ): String? { val request = CreateSecurityGroupRequest { groupName = groupNameVal description = groupDescVal vpcId = vpcIdVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val resp = ec2.createSecurityGroup(request) val ipRange = IpRange { cidrIp = "$myIpAddress/0" } val ipPerm = IpPermission { ipProtocol = "tcp" toPort = 80 fromPort = 80 ipRanges = listOf(ipRange) } val ipPerm2 = IpPermission { ipProtocol = "tcp" toPort = 22 fromPort = 22 ipRanges = listOf(ipRange) } val authRequest = AuthorizeSecurityGroupIngressRequest { groupName = groupNameVal ipPermissions = listOf(ipPerm, ipPerm2) } ec2.authorizeSecurityGroupIngress(authRequest) println("Successfully added ingress policy to Security Group $groupNameVal") return resp.groupId } } suspend fun describeEC2KeysSc() { Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.describeKeyPairs(DescribeKeyPairsRequest {}) response.keyPairs?.forEach { keyPair -> println("Found key pair with name ${keyPair.keyName} and fingerprint ${ keyPair.keyFingerprint}") } } } suspend fun createKeyPairSc( keyNameVal: String, fileNameVal: String, ) { val request = CreateKeyPairRequest { keyName = keyNameVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.createKeyPair(request) val content = response.keyMaterial if (content != null) { File(fileNameVal).writeText(content) } println("Successfully created key pair named $keyNameVal") } } ``` + For API details, see the following topics in *AWS SDK for Kotlin API reference*. + [AllocateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [AssociateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [AuthorizeSecurityGroupIngress](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [CreateKeyPair](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [CreateSecurityGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [DeleteKeyPair](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [DeleteSecurityGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [DescribeImages](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [DescribeInstanceTypes](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [DescribeInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [DescribeKeyPairs](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [DescribeSecurityGroups](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [DisassociateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [ReleaseAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [RunInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [StartInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [StopInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [TerminateInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) + [UnmonitorInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). Run an interactive scenario at a command prompt. ``` class EC2InstanceScenario: """ A scenario that demonstrates how to use Boto3 to manage Amazon EC2 resources. Covers creating a key pair, security group, launching an instance, associating an Elastic IP, and cleaning up resources. """ def __init__( self, inst_wrapper: EC2InstanceWrapper, key_wrapper: KeyPairWrapper, sg_wrapper: SecurityGroupWrapper, eip_wrapper: ElasticIpWrapper, ssm_client: boto3.client, remote_exec: bool = False, ): """ Initializes the EC2InstanceScenario with the necessary AWS service wrappers. :param inst_wrapper: Wrapper for EC2 instance operations. :param key_wrapper: Wrapper for key pair operations. :param sg_wrapper: Wrapper for security group operations. :param eip_wrapper: Wrapper for Elastic IP operations. :param ssm_client: Boto3 client for accessing SSM to retrieve AMIs. :param remote_exec: Flag to indicate if the scenario is running in a remote execution environment. Defaults to False. If True, the script won't prompt for user interaction. """ self.inst_wrapper = inst_wrapper self.key_wrapper = key_wrapper self.sg_wrapper = sg_wrapper self.eip_wrapper = eip_wrapper self.ssm_client = ssm_client self.remote_exec = remote_exec def create_and_list_key_pairs(self) -> None: """ Creates an RSA key pair for SSH access to the EC2 instance and lists available key pairs. """ console.print("**Step 1: Create a Secure Key Pair**", style="bold cyan") console.print( "Let's create a secure RSA key pair for connecting to your EC2 instance." ) key_name = f"MyUniqueKeyPair-{uuid.uuid4().hex[:8]}" console.print(f"- **Key Pair Name**: {key_name}") # Create the key pair and simulate the process with a progress bar. with alive_bar(1, title="Creating Key Pair") as bar: self.key_wrapper.create(key_name) time.sleep(0.4) # Simulate the delay in key creation bar() console.print(f"- **Private Key Saved to**: {self.key_wrapper.key_file_path}\n") # List key pairs (simulated) and show a progress bar. list_keys = True if list_keys: console.print("- Listing your key pairs...") start_time = time.time() with alive_bar(100, title="Listing Key Pairs") as bar: while time.time() - start_time < 2: time.sleep(0.2) bar(10) self.key_wrapper.list(5) if time.time() - start_time > 2: console.print( "Taking longer than expected! Please wait...", style="bold yellow", ) def create_security_group(self) -> None: """ Creates a security group that controls access to the EC2 instance and adds a rule to allow SSH access from the user's current public IP address. """ console.print("**Step 2: Create a Security Group**", style="bold cyan") console.print( "Security groups manage access to your instance. Let's create one." ) sg_name = f"MySecurityGroup-{uuid.uuid4().hex[:8]}" console.print(f"- **Security Group Name**: {sg_name}") # Create the security group and simulate the process with a progress bar. with alive_bar(1, title="Creating Security Group") as bar: self.sg_wrapper.create( sg_name, "Security group for example: get started with instances." ) time.sleep(0.5) bar() console.print(f"- **Security Group ID**: {self.sg_wrapper.security_group}\n") # Get the current public IP to set up SSH access. ip_response = urllib.request.urlopen("http://checkip.amazonaws.com") current_ip_address = ip_response.read().decode("utf-8").strip() console.print( "Let's add a rule to allow SSH only from your current IP address." ) console.print(f"- **Your Public IP Address**: {current_ip_address}") console.print("- Automatically adding SSH rule...") # Update security group rules to allow SSH and simulate with a progress bar. with alive_bar(1, title="Updating Security Group Rules") as bar: response = self.sg_wrapper.authorize_ingress(current_ip_address) time.sleep(0.4) if response and response.get("Return"): console.print("- **Security Group Rules Updated**.") else: console.print( "- **Error**: Couldn't update security group rules.", style="bold red", ) bar() self.sg_wrapper.describe(self.sg_wrapper.security_group) def create_instance(self) -> None: """ Launches an EC2 instance using an Amazon Linux 2 AMI and the created key pair and security group. Displays instance details and SSH connection information. """ # Retrieve Amazon Linux 2 AMIs from SSM. ami_paginator = self.ssm_client.get_paginator("get_parameters_by_path") ami_options = [] for page in ami_paginator.paginate(Path="/aws/service/ami-amazon-linux-latest"): ami_options += page["Parameters"] amzn2_images = self.inst_wrapper.get_images( [opt["Value"] for opt in ami_options if "amzn2" in opt["Name"]] ) console.print("\n**Step 3: Launch Your Instance**", style="bold cyan") console.print( "Let's create an instance from an Amazon Linux 2 AMI. Here are some options:" ) image_choice = 0 console.print(f"- Selected AMI: {amzn2_images[image_choice]['ImageId']}\n") # Display instance types compatible with the selected AMI inst_types = self.inst_wrapper.get_instance_types( amzn2_images[image_choice]["Architecture"] ) inst_type_choice = 0 console.print( f"- Selected instance type: {inst_types[inst_type_choice]['InstanceType']}\n" ) console.print("Creating your instance and waiting for it to start...") with alive_bar(1, title="Creating Instance") as bar: self.inst_wrapper.create( amzn2_images[image_choice]["ImageId"], inst_types[inst_type_choice]["InstanceType"], self.key_wrapper.key_pair["KeyName"], [self.sg_wrapper.security_group], ) time.sleep(21) bar() console.print(f"**Success! Your instance is ready:**\n", style="bold green") self.inst_wrapper.display() console.print( "You can use SSH to connect to your instance. " "If the connection attempt times out, you might have to manually update " "the SSH ingress rule for your IP address in the AWS Management Console." ) self._display_ssh_info() def _display_ssh_info(self) -> None: """ Displays SSH connection information for the user to connect to the EC2 instance. Handles the case where the instance does or does not have an associated public IP address. """ if ( not self.eip_wrapper.elastic_ips or not self.eip_wrapper.elastic_ips[0].allocation_id ): if self.inst_wrapper.instances: instance = self.inst_wrapper.instances[0] instance_id = instance["InstanceId"] waiter = self.inst_wrapper.ec2_client.get_waiter("instance_running") console.print( "Waiting for the instance to be in a running state with a public IP...", style="bold cyan", ) with alive_bar(1, title="Waiting for Instance to Start") as bar: waiter.wait(InstanceIds=[instance_id]) time.sleep(20) bar() instance = self.inst_wrapper.ec2_client.describe_instances( InstanceIds=[instance_id] )["Reservations"][0]["Instances"][0] public_ip = instance.get("PublicIpAddress") if public_ip: console.print( "\nTo connect via SSH, open another command prompt and run the following command:", style="bold cyan", ) console.print( f"\tssh -i {self.key_wrapper.key_file_path} ec2-user@{public_ip}" ) else: console.print( "Instance does not have a public IP address assigned.", style="bold red", ) else: console.print( "No instance available to retrieve public IP address.", style="bold red", ) else: elastic_ip = self.eip_wrapper.elastic_ips[0] elastic_ip_address = elastic_ip.public_ip console.print( f"\tssh -i {self.key_wrapper.key_file_path} ec2-user@{elastic_ip_address}" ) if not self.remote_exec: console.print("\nOpen a new terminal tab to try the above SSH command.") input("Press Enter to continue...") def associate_elastic_ip(self) -> None: """ Allocates an Elastic IP address and associates it with the EC2 instance. Displays the Elastic IP address and SSH connection information. """ console.print("\n**Step 4: Allocate an Elastic IP Address**", style="bold cyan") console.print( "You can allocate an Elastic IP address and associate it with your instance\n" "to keep a consistent IP address even when your instance restarts." ) with alive_bar(1, title="Allocating Elastic IP") as bar: elastic_ip = self.eip_wrapper.allocate() time.sleep(0.5) bar() console.print( f"- **Allocated Static Elastic IP Address**: {elastic_ip.public_ip}." ) with alive_bar(1, title="Associating Elastic IP") as bar: self.eip_wrapper.associate( elastic_ip.allocation_id, self.inst_wrapper.instances[0]["InstanceId"] ) time.sleep(2) bar() console.print(f"- **Associated Elastic IP with Your Instance**.") console.print( "You can now use SSH to connect to your instance by using the Elastic IP." ) self._display_ssh_info() def stop_and_start_instance(self) -> None: """ Stops and restarts the EC2 instance. Displays instance state and explains changes that occur when the instance is restarted, such as the potential change in the public IP address unless an Elastic IP is associated. """ console.print("\n**Step 5: Stop and Start Your Instance**", style="bold cyan") console.print("Let's stop and start your instance to see what changes.") console.print("- **Stopping your instance and waiting until it's stopped...**") with alive_bar(1, title="Stopping Instance") as bar: self.inst_wrapper.stop() time.sleep(360) bar() console.print("- **Your instance is stopped. Restarting...**") with alive_bar(1, title="Starting Instance") as bar: self.inst_wrapper.start() time.sleep(20) bar() console.print("**Your instance is running.**", style="bold green") self.inst_wrapper.display() elastic_ip = ( self.eip_wrapper.elastic_ips[0] if self.eip_wrapper.elastic_ips else None ) if elastic_ip is None or elastic_ip.allocation_id is None: console.print( "- **Note**: Every time your instance is restarted, its public IP address changes." ) else: console.print( f"Because you have associated an Elastic IP with your instance, you can \n" f"connect by using a consistent IP address after the instance restarts: {elastic_ip.public_ip}" ) self._display_ssh_info() def cleanup(self) -> None: """ Cleans up all the resources created during the scenario, including disassociating and releasing the Elastic IP, terminating the instance, deleting the security group, and deleting the key pair. """ console.print("\n**Step 6: Clean Up Resources**", style="bold cyan") console.print("Cleaning up resources:") for elastic_ip in self.eip_wrapper.elastic_ips: console.print(f"- **Elastic IP**: {elastic_ip.public_ip}") with alive_bar(1, title="Disassociating Elastic IP") as bar: self.eip_wrapper.disassociate(elastic_ip.allocation_id) time.sleep(2) bar() console.print("\t- **Disassociated Elastic IP from the Instance**") with alive_bar(1, title="Releasing Elastic IP") as bar: self.eip_wrapper.release(elastic_ip.allocation_id) time.sleep(1) bar() console.print("\t- **Released Elastic IP**") console.print(f"- **Instance**: {self.inst_wrapper.instances[0]['InstanceId']}") with alive_bar(1, title="Terminating Instance") as bar: self.inst_wrapper.terminate() time.sleep(380) bar() console.print("\t- **Terminated Instance**") console.print(f"- **Security Group**: {self.sg_wrapper.security_group}") with alive_bar(1, title="Deleting Security Group") as bar: self.sg_wrapper.delete(self.sg_wrapper.security_group) time.sleep(1) bar() console.print("\t- **Deleted Security Group**") console.print(f"- **Key Pair**: {self.key_wrapper.key_pair['KeyName']}") with alive_bar(1, title="Deleting Key Pair") as bar: self.key_wrapper.delete(self.key_wrapper.key_pair["KeyName"]) time.sleep(0.4) bar() console.print("\t- **Deleted Key Pair**") def run_scenario(self) -> None: """ Executes the entire EC2 instance scenario: creates key pairs, security groups, launches an instance, associates an Elastic IP, and cleans up all resources. """ logging.basicConfig(level=logging.INFO, format="%(levelname)s: %(message)s") console.print("-" * 88) console.print( "Welcome to the Amazon Elastic Compute Cloud (Amazon EC2) get started with instances demo.", style="bold magenta", ) console.print("-" * 88) self.create_and_list_key_pairs() self.create_security_group() self.create_instance() self.stop_and_start_instance() self.associate_elastic_ip() self.stop_and_start_instance() self.cleanup() console.print("\nThanks for watching!", style="bold green") console.print("-" * 88) if __name__ == "__main__": try: scenario = EC2InstanceScenario( EC2InstanceWrapper.from_client(), KeyPairWrapper.from_client(), SecurityGroupWrapper.from_client(), ElasticIpWrapper.from_client(), boto3.client("ssm"), ) scenario.run_scenario() except Exception: logging.exception("Something went wrong with the demo.") ``` Define a class that wraps key pair actions. ``` class KeyPairWrapper: """ Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) key pair actions. This class provides methods to create, list, and delete EC2 key pairs. """ def __init__( self, ec2_client: boto3.client, key_file_dir: Union[tempfile.TemporaryDirectory, str], key_pair: Optional[dict] = None, ): """ Initializes the KeyPairWrapper with the specified EC2 client, key file directory, and an optional key pair. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param key_file_dir: The folder where the private key information is stored. This should be a secure folder. :param key_pair: A dictionary representing the Boto3 KeyPair object. This is a high-level object that wraps key pair actions. Optional. """ self.ec2_client = ec2_client self.key_pair = key_pair self.key_file_path: Optional[str] = None self.key_file_dir = key_file_dir @classmethod def from_client(cls) -> "KeyPairWrapper": """ Class method to create an instance of KeyPairWrapper using a new EC2 client and a temporary directory for storing key files. :return: An instance of KeyPairWrapper. """ ec2_client = boto3.client("ec2") return cls(ec2_client, tempfile.TemporaryDirectory()) def create(self, key_name: str) -> dict: """ Creates a key pair that can be used to securely connect to an EC2 instance. The returned key pair contains private key information that cannot be retrieved again. The private key data is stored as a .pem file. :param key_name: The name of the key pair to create. :return: A dictionary representing the Boto3 KeyPair object that represents the newly created key pair. :raises ClientError: If there is an error in creating the key pair, for example, if a key pair with the same name already exists. """ try: response = self.ec2_client.create_key_pair(KeyName=key_name) self.key_pair = response self.key_file_path = os.path.join( self.key_file_dir.name, f"{self.key_pair['KeyName']}.pem" ) with open(self.key_file_path, "w") as key_file: key_file.write(self.key_pair["KeyMaterial"]) except ClientError as err: if err.response["Error"]["Code"] == "InvalidKeyPair.Duplicate": logger.error( f"A key pair called {key_name} already exists. " "Please choose a different name for your key pair " "or delete the existing key pair before creating." ) raise else: return self.key_pair def list(self, limit: Optional[int] = None) -> None: """ Displays a list of key pairs for the current account. WARNING: Results are not paginated. :param limit: The maximum number of key pairs to list. If not specified, all key pairs will be listed. :raises ClientError: If there is an error in listing the key pairs. """ try: response = self.ec2_client.describe_key_pairs() key_pairs = response.get("KeyPairs", []) if limit: key_pairs = key_pairs[:limit] for key_pair in key_pairs: logger.info( f"Found {key_pair['KeyType']} key '{key_pair['KeyName']}' with fingerprint:" ) logger.info(f"\t{key_pair['KeyFingerprint']}") except ClientError as err: logger.error(f"Failed to list key pairs: {str(err)}") raise def delete(self, key_name: str) -> bool: """ Deletes a key pair by its name. :param key_name: The name of the key pair to delete. :return: A boolean indicating whether the deletion was successful. :raises ClientError: If there is an error in deleting the key pair, for example, if the key pair does not exist. """ try: self.ec2_client.delete_key_pair(KeyName=key_name) logger.info(f"Successfully deleted key pair: {key_name}") self.key_pair = None return True except self.ec2_client.exceptions.ClientError as err: logger.error(f"Deletion failed for key pair: {key_name}") error_code = err.response["Error"]["Code"] if error_code == "InvalidKeyPair.NotFound": logger.error( f"The key pair '{key_name}' does not exist and cannot be deleted. " "Please verify the key pair name and try again." ) raise ``` Define a class that wraps security group actions. ``` class SecurityGroupWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) security group actions.""" def __init__(self, ec2_client: boto3.client, security_group: Optional[str] = None): """ Initializes the SecurityGroupWrapper with an EC2 client and an optional security group ID. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param security_group: The ID of a security group to manage. This is a high-level identifier that represents the security group. """ self.ec2_client = ec2_client self.security_group = security_group @classmethod def from_client(cls) -> "SecurityGroupWrapper": """ Creates a SecurityGroupWrapper instance with a default EC2 client. :return: An instance of SecurityGroupWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def create(self, group_name: str, group_description: str) -> str: """ Creates a security group in the default virtual private cloud (VPC) of the current account. :param group_name: The name of the security group to create. :param group_description: The description of the security group to create. :return: The ID of the newly created security group. :raise Handles AWS SDK service-level ClientError, with special handling for ResourceAlreadyExists """ try: response = self.ec2_client.create_security_group( GroupName=group_name, Description=group_description ) self.security_group = response["GroupId"] except ClientError as err: if err.response["Error"]["Code"] == "ResourceAlreadyExists": logger.error( f"Security group '{group_name}' already exists. Please choose a different name." ) raise else: return self.security_group def authorize_ingress(self, ssh_ingress_ip: str) -> Optional[Dict[str, Any]]: """ Adds a rule to the security group to allow access to SSH. :param ssh_ingress_ip: The IP address that is granted inbound access to connect to port 22 over TCP, used for SSH. :return: The response to the authorization request. The 'Return' field of the response indicates whether the request succeeded or failed, or None if no security group is set. :raise Handles AWS SDK service-level ClientError, with special handling for ResourceAlreadyExists """ if self.security_group is None: logger.info("No security group to update.") return None try: ip_permissions = [ { # SSH ingress open to only the specified IP address. "IpProtocol": "tcp", "FromPort": 22, "ToPort": 22, "IpRanges": [{"CidrIp": f"{ssh_ingress_ip}/32"}], } ] response = self.ec2_client.authorize_security_group_ingress( GroupId=self.security_group, IpPermissions=ip_permissions ) except ClientError as err: if err.response["Error"]["Code"] == "InvalidPermission.Duplicate": logger.error( f"The SSH ingress rule for IP {ssh_ingress_ip} already exists" f"in security group '{self.security_group}'." ) raise else: return response def describe(self, security_group_id: Optional[str] = None) -> bool: """ Displays information about the specified security group or all security groups if no ID is provided. :param security_group_id: The ID of the security group to describe. If None, an open search is performed to describe all security groups. :returns: True if the description is successful. :raises ClientError: If there is an error describing the security group(s), such as an invalid security group ID. """ try: paginator = self.ec2_client.get_paginator("describe_security_groups") if security_group_id is None: # If no ID is provided, return all security groups. page_iterator = paginator.paginate() else: page_iterator = paginator.paginate(GroupIds=[security_group_id]) for page in page_iterator: for security_group in page["SecurityGroups"]: print(f"Security group: {security_group['GroupName']}") print(f"\tID: {security_group['GroupId']}") print(f"\tVPC: {security_group['VpcId']}") if security_group["IpPermissions"]: print("Inbound permissions:") pp(security_group["IpPermissions"]) return True except ClientError as err: logger.error("Failed to describe security group(s).") if err.response["Error"]["Code"] == "InvalidGroup.NotFound": logger.error( f"Security group {security_group_id} does not exist " f"because the specified security group ID was not found." ) raise def delete(self, security_group_id: str) -> bool: """ Deletes the specified security group. :param security_group_id: The ID of the security group to delete. Required. :returns: True if the deletion is successful. :raises ClientError: If the security group cannot be deleted due to an AWS service error. """ try: self.ec2_client.delete_security_group(GroupId=security_group_id) logger.info(f"Successfully deleted security group '{security_group_id}'") return True except ClientError as err: logger.error(f"Deletion failed for security group '{security_group_id}'") error_code = err.response["Error"]["Code"] if error_code == "InvalidGroup.NotFound": logger.error( f"Security group '{security_group_id}' cannot be deleted because it does not exist." ) elif error_code == "DependencyViolation": logger.error( f"Security group '{security_group_id}' cannot be deleted because it is still in use." " Verify that it is:" "\n\t- Detached from resources" "\n\t- Removed from references in other groups" "\n\t- Removed from VPC's as a default group" ) raise ``` Define a class that wraps instance actions. ``` class EC2InstanceWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface.""" def __init__( self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None ) -> None: """ Initializes the EC2InstanceWrapper with an EC2 client and optional instances. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that wrap instance actions. """ self.ec2_client = ec2_client self.instances = instances or [] @classmethod def from_client(cls) -> "EC2InstanceWrapper": """ Creates an EC2InstanceWrapper instance with a default EC2 client. :return: An instance of EC2InstanceWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def create( self, image_id: str, instance_type: str, key_pair_name: str, security_group_ids: Optional[List[str]] = None, ) -> List[Dict[str, Any]]: """ Creates a new EC2 instance in the default VPC of the current account. The instance starts immediately after it is created. :param image_id: The ID of the Amazon Machine Image (AMI) to use for the instance. :param instance_type: The type of instance to create, such as 't2.micro'. :param key_pair_name: The name of the key pair to use for SSH access. :param security_group_ids: A list of security group IDs to associate with the instance. If not specified, the default security group of the VPC is used. :return: A list of dictionaries representing Boto3 Instance objects representing the newly created instances. """ try: instance_params = { "ImageId": image_id, "InstanceType": instance_type, "KeyName": key_pair_name, } if security_group_ids is not None: instance_params["SecurityGroupIds"] = security_group_ids response = self.ec2_client.run_instances( **instance_params, MinCount=1, MaxCount=1 ) instance = response["Instances"][0] self.instances.append(instance) waiter = self.ec2_client.get_waiter("instance_running") waiter.wait(InstanceIds=[instance["InstanceId"]]) except ClientError as err: params_str = "\n\t".join( f"{key}: {value}" for key, value in instance_params.items() ) logger.error( f"Failed to complete instance creation request.\nRequest details:{params_str}" ) error_code = err.response["Error"]["Code"] if error_code == "InstanceLimitExceeded": logger.error( ( f"Insufficient capacity for instance type '{instance_type}'. " "Terminate unused instances or contact AWS Support for a limit increase." ) ) if error_code == "InsufficientInstanceCapacity": logger.error( ( f"Insufficient capacity for instance type '{instance_type}'. " "Select a different instance type or launch in a different availability zone." ) ) raise return self.instances def display(self, state_filter: Optional[str] = "running") -> None: """ Displays information about instances, filtering by the specified state. :param state_filter: The instance state to include in the output. Only instances in this state will be displayed. Default is 'running'. Example states: 'running', 'stopped'. """ if not self.instances: logger.info("No instances to display.") return instance_ids = [instance["InstanceId"] for instance in self.instances] paginator = self.ec2_client.get_paginator("describe_instances") page_iterator = paginator.paginate(InstanceIds=instance_ids) try: for page in page_iterator: for reservation in page["Reservations"]: for instance in reservation["Instances"]: instance_state = instance["State"]["Name"] # Apply the state filter (default is 'running') if state_filter and instance_state != state_filter: continue # Skip this instance if it doesn't match the filter # Create a formatted string with instance details instance_info = ( f"• ID: {instance['InstanceId']}\n" f"• Image ID: {instance['ImageId']}\n" f"• Instance type: {instance['InstanceType']}\n" f"• Key name: {instance['KeyName']}\n" f"• VPC ID: {instance['VpcId']}\n" f"• Public IP: {instance.get('PublicIpAddress', 'N/A')}\n" f"• State: {instance_state}" ) print(instance_info) except ClientError as err: logger.error( f"Failed to display instance(s). : {' '.join(map(str, instance_ids))}" ) error_code = err.response["Error"]["Code"] if error_code == "InvalidInstanceID.NotFound": logger.error( "One or more instance IDs do not exist. " "Please verify the instance IDs and try again." ) raise def terminate(self) -> None: """ Terminates instances and waits for them to reach the terminated state. """ if not self.instances: logger.info("No instances to terminate.") return instance_ids = [instance["InstanceId"] for instance in self.instances] try: self.ec2_client.terminate_instances(InstanceIds=instance_ids) waiter = self.ec2_client.get_waiter("instance_terminated") waiter.wait(InstanceIds=instance_ids) self.instances.clear() for instance_id in instance_ids: print(f"• Instance ID: {instance_id}\n" f"• Action: Terminated") except ClientError as err: logger.error( f"Failed instance termination details:\n\t{str(self.instances)}" ) error_code = err.response["Error"]["Code"] if error_code == "InvalidInstanceID.NotFound": logger.error( "One or more instance IDs do not exist. " "Please verify the instance IDs and try again." ) raise def start(self) -> Optional[Dict[str, Any]]: """ Starts instances and waits for them to be in a running state. :return: The response to the start request. """ if not self.instances: logger.info("No instances to start.") return None instance_ids = [instance["InstanceId"] for instance in self.instances] try: start_response = self.ec2_client.start_instances(InstanceIds=instance_ids) waiter = self.ec2_client.get_waiter("instance_running") waiter.wait(InstanceIds=instance_ids) return start_response except ClientError as err: logger.error( f"Failed to start instance(s): {','.join(map(str, instance_ids))}" ) error_code = err.response["Error"]["Code"] if error_code == "IncorrectInstanceState": logger.error( "Couldn't start instance(s) because they are in an incorrect state. " "Ensure the instances are in a stopped state before starting them." ) raise def stop(self) -> Optional[Dict[str, Any]]: """ Stops instances and waits for them to be in a stopped state. :return: The response to the stop request, or None if there are no instances to stop. """ if not self.instances: logger.info("No instances to stop.") return None instance_ids = [instance["InstanceId"] for instance in self.instances] try: # Attempt to stop the instances stop_response = self.ec2_client.stop_instances(InstanceIds=instance_ids) waiter = self.ec2_client.get_waiter("instance_stopped") waiter.wait(InstanceIds=instance_ids) except ClientError as err: logger.error( f"Failed to stop instance(s): {','.join(map(str, instance_ids))}" ) error_code = err.response["Error"]["Code"] if error_code == "IncorrectInstanceState": logger.error( "Couldn't stop instance(s) because they are in an incorrect state. " "Ensure the instances are in a running state before stopping them." ) raise return stop_response def get_images(self, image_ids: List[str]) -> List[Dict[str, Any]]: """ Gets information about Amazon Machine Images (AMIs) from a list of AMI IDs. :param image_ids: The list of AMI IDs to look up. :return: A list of dictionaries representing the requested AMIs. """ try: response = self.ec2_client.describe_images(ImageIds=image_ids) images = response["Images"] except ClientError as err: logger.error(f"Failed to stop AMI(s): {','.join(map(str, image_ids))}") error_code = err.response["Error"]["Code"] if error_code == "InvalidAMIID.NotFound": logger.error("One or more of the AMI IDs does not exist.") raise return images def get_instance_types( self, architecture: str = "x86_64", sizes: List[str] = ["*.micro", "*.small"] ) -> List[Dict[str, Any]]: """ Gets instance types that support the specified architecture and size. See https://docs.aws.amazon.com/AWSEC2/latest/APIReference/API_DescribeInstanceTypes.html for a list of allowable parameters. :param architecture: The architecture supported by instance types. Default: 'x86_64'. :param sizes: The size of instance types. Default: '*.micro', '*.small', :return: A list of dictionaries representing instance types that support the specified architecture and size. """ try: inst_types = [] paginator = self.ec2_client.get_paginator("describe_instance_types") for page in paginator.paginate( Filters=[ { "Name": "processor-info.supported-architecture", "Values": [architecture], }, {"Name": "instance-type", "Values": sizes}, ] ): inst_types += page["InstanceTypes"] except ClientError as err: logger.error( f"Failed to get instance types: {architecture}, {','.join(map(str, sizes))}" ) error_code = err.response["Error"]["Code"] if error_code == "InvalidParameterValue": logger.error( "Parameters are invalid. " "Ensure architecture and size strings conform to DescribeInstanceTypes API reference." ) raise else: return inst_types ``` Define a class that wraps Elastic IP actions. ``` class ElasticIpWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Elastic IP address actions using the client interface.""" class ElasticIp: """Represents an Elastic IP and its associated instance.""" def __init__( self, allocation_id: str, public_ip: str, instance_id: Optional[str] = None ) -> None: """ Initializes the ElasticIp object. :param allocation_id: The allocation ID of the Elastic IP. :param public_ip: The public IP address of the Elastic IP. :param instance_id: The ID of the associated EC2 instance, if any. """ self.allocation_id = allocation_id self.public_ip = public_ip self.instance_id = instance_id def __init__(self, ec2_client: Any) -> None: """ Initializes the ElasticIpWrapper with an EC2 client. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. """ self.ec2_client = ec2_client self.elastic_ips: List[ElasticIpWrapper.ElasticIp] = [] @classmethod def from_client(cls) -> "ElasticIpWrapper": """ Creates an ElasticIpWrapper instance with a default EC2 client. :return: An instance of ElasticIpWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def allocate(self) -> "ElasticIpWrapper.ElasticIp": """ Allocates an Elastic IP address that can be associated with an Amazon EC2 instance. By using an Elastic IP address, you can keep the public IP address constant even when you restart the associated instance. :return: The ElasticIp object for the newly created Elastic IP address. :raises ClientError: If the allocation fails, such as reaching the maximum limit of Elastic IPs. """ try: response = self.ec2_client.allocate_address(Domain="vpc") elastic_ip = self.ElasticIp( allocation_id=response["AllocationId"], public_ip=response["PublicIp"] ) self.elastic_ips.append(elastic_ip) except ClientError as err: if err.response["Error"]["Code"] == "AddressLimitExceeded": logger.error( "Max IP's reached. Release unused addresses or contact AWS Support for an increase." ) raise err return elastic_ip def associate( self, allocation_id: str, instance_id: str ) -> Union[Dict[str, Any], None]: """ Associates an Elastic IP address with an instance. When this association is created, the Elastic IP's public IP address is immediately used as the public IP address of the associated instance. :param allocation_id: The allocation ID of the Elastic IP. :param instance_id: The ID of the Amazon EC2 instance. :return: A response that contains the ID of the association, or None if no Elastic IP is found. :raises ClientError: If the association fails, such as when the instance ID is not found. """ elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id) if elastic_ip is None: logger.info(f"No Elastic IP found with allocation ID {allocation_id}.") return None try: response = self.ec2_client.associate_address( AllocationId=allocation_id, InstanceId=instance_id ) elastic_ip.instance_id = ( instance_id # Track the instance associated with this Elastic IP. ) except ClientError as err: if err.response["Error"]["Code"] == "InvalidInstanceID.NotFound": logger.error( f"Failed to associate Elastic IP {allocation_id} with {instance_id} " "because the specified instance ID does not exist or has not propagated fully. " "Verify the instance ID and try again, or wait a few moments before attempting to " "associate the Elastic IP address." ) raise return response def disassociate(self, allocation_id: str) -> None: """ Removes an association between an Elastic IP address and an instance. When the association is removed, the instance is assigned a new public IP address. :param allocation_id: The allocation ID of the Elastic IP to disassociate. :raises ClientError: If the disassociation fails, such as when the association ID is not found. """ elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id) if elastic_ip is None or elastic_ip.instance_id is None: logger.info( f"No association found for Elastic IP with allocation ID {allocation_id}." ) return try: # Retrieve the association ID before disassociating response = self.ec2_client.describe_addresses(AllocationIds=[allocation_id]) association_id = response["Addresses"][0].get("AssociationId") if association_id: self.ec2_client.disassociate_address(AssociationId=association_id) elastic_ip.instance_id = None # Remove the instance association else: logger.info( f"No Association ID found for Elastic IP with allocation ID {allocation_id}." ) except ClientError as err: if err.response["Error"]["Code"] == "InvalidAssociationID.NotFound": logger.error( f"Failed to disassociate Elastic IP {allocation_id} " "because the specified association ID for the Elastic IP address was not found. " "Verify the association ID and ensure the Elastic IP is currently associated with a " "resource before attempting to disassociate it." ) raise def release(self, allocation_id: str) -> None: """ Releases an Elastic IP address. After the Elastic IP address is released, it can no longer be used. :param allocation_id: The allocation ID of the Elastic IP to release. :raises ClientError: If the release fails, such as when the Elastic IP address is not found. """ elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id) if elastic_ip is None: logger.info(f"No Elastic IP found with allocation ID {allocation_id}.") return try: self.ec2_client.release_address(AllocationId=allocation_id) self.elastic_ips.remove(elastic_ip) # Remove the Elastic IP from the list except ClientError as err: if err.response["Error"]["Code"] == "InvalidAddress.NotFound": logger.error( f"Failed to release Elastic IP address {allocation_id} " "because it could not be found. Verify the Elastic IP address " "and ensure it is allocated to your account in the correct region " "before attempting to release it." ) raise @staticmethod def get_elastic_ip_by_allocation( elastic_ips: List["ElasticIpWrapper.ElasticIp"], allocation_id: str ) -> Optional["ElasticIpWrapper.ElasticIp"]: """ Retrieves an Elastic IP object by its allocation ID from a given list of Elastic IPs. :param elastic_ips: A list of ElasticIp objects. :param allocation_id: The allocation ID of the Elastic IP to retrieve. :return: The ElasticIp object associated with the allocation ID, or None if not found. """ return next( (ip for ip in elastic_ips if ip.allocation_id == allocation_id), None ) ``` + For API details, see the following topics in *AWS SDK for Python (Boto3) API Reference*. + [AllocateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AllocateAddress) + [AssociateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AssociateAddress) + [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AuthorizeSecurityGroupIngress) + [CreateKeyPair](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateKeyPair) + [CreateSecurityGroup](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateSecurityGroup) + [DeleteKeyPair](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteKeyPair) + [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteSecurityGroup) + [DescribeImages](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeImages) + [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstanceTypes) + [DescribeInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstances) + [DescribeKeyPairs](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeKeyPairs) + [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSecurityGroups) + [DisassociateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DisassociateAddress) + [ReleaseAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/ReleaseAddress) + [RunInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/RunInstances) + [StartInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/StartInstances) + [StopInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/StopInstances) + [TerminateInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/TerminateInstances) + [UnmonitorInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/UnmonitorInstances) ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). The EC2InstanceScenario implementation contains logic to run the example as a whole. ``` //! Scenario that uses the AWS SDK for Rust (the SDK) with Amazon Elastic Compute Cloud //! (Amazon EC2) to do the following: //! //! * Create a key pair that is used to secure SSH communication between your computer and //! an EC2 instance. //! * Create a security group that acts as a virtual firewall for your EC2 instances to //! control incoming and outgoing traffic. //! * Find an Amazon Machine Image (AMI) and a compatible instance type. //! * Create an instance that is created from the instance type and AMI you select, and //! is configured to use the security group and key pair created in this example. //! * Stop and restart the instance. //! * Create an Elastic IP address and associate it as a consistent IP address for your instance. //! * Connect to your instance with SSH, using both its public IP address and your Elastic IP //! address. //! * Clean up all of the resources created by this example. use std::net::Ipv4Addr; use crate::{ ec2::{EC2Error, EC2}, getting_started::{key_pair::KeyPairManager, util::Util}, ssm::SSM, }; use aws_sdk_ssm::types::Parameter; use super::{ elastic_ip::ElasticIpManager, instance::InstanceManager, security_group::SecurityGroupManager, util::ScenarioImage, }; pub struct Ec2InstanceScenario { ec2: EC2, ssm: SSM, util: Util, key_pair_manager: KeyPairManager, security_group_manager: SecurityGroupManager, instance_manager: InstanceManager, elastic_ip_manager: ElasticIpManager, } impl Ec2InstanceScenario { pub fn new(ec2: EC2, ssm: SSM, util: Util) -> Self { Ec2InstanceScenario { ec2, ssm, util, key_pair_manager: Default::default(), security_group_manager: Default::default(), instance_manager: Default::default(), elastic_ip_manager: Default::default(), } } pub async fn run(&mut self) -> Result<(), EC2Error> { self.create_and_list_key_pairs().await?; self.create_security_group().await?; self.create_instance().await?; self.stop_and_start_instance().await?; self.associate_elastic_ip().await?; self.stop_and_start_instance().await?; Ok(()) } /// 1. Creates an RSA key pair and saves its private key data as a .pem file in secure /// temporary storage. The private key data is deleted after the example completes. /// 2. Optionally, lists the first five key pairs for the current account. pub async fn create_and_list_key_pairs(&mut self) -> Result<(), EC2Error> { println!( "Let's create an RSA key pair that you can be use to securely connect to your EC2 instance."); let key_name = self.util.prompt_key_name()?; self.key_pair_manager .create(&self.ec2, &self.util, key_name) .await?; println!( "Created a key pair {} and saved the private key to {:?}.", self.key_pair_manager .key_pair() .key_name() .ok_or_else(|| EC2Error::new("No key name after creating key"))?, self.key_pair_manager .key_file_path() .ok_or_else(|| EC2Error::new("No key file after creating key"))? ); if self.util.should_list_key_pairs()? { for pair in self.key_pair_manager.list(&self.ec2).await? { println!( "Found {:?} key {} with fingerprint:\t{:?}", pair.key_type(), pair.key_name().unwrap_or("Unknown"), pair.key_fingerprint() ); } } Ok(()) } /// 1. Creates a security group for the default VPC. /// 2. Adds an inbound rule to allow SSH. The SSH rule allows only /// inbound traffic from the current computer’s public IPv4 address. /// 3. Displays information about the security group. /// /// This function uses to get the current public IP /// address of the computer that is running the example. This method works in most /// cases. However, depending on how your computer connects to the internet, you /// might have to manually add your public IP address to the security group by using /// the AWS Management Console. pub async fn create_security_group(&mut self) -> Result<(), EC2Error> { println!("Let's create a security group to manage access to your instance."); let group_name = self.util.prompt_security_group_name()?; self.security_group_manager .create( &self.ec2, &group_name, "Security group for example: get started with instances.", ) .await?; println!( "Created security group {} in your default VPC {}.", self.security_group_manager.group_name(), self.security_group_manager .vpc_id() .unwrap_or("(unknown vpc)") ); let check_ip = self.util.do_get("https://checkip.amazonaws.com").await?; let current_ip_address: Ipv4Addr = check_ip.trim().parse().map_err(|e| { EC2Error::new(format!( "Failed to convert response {} to IP Address: {e:?}", check_ip )) })?; println!("Your public IP address seems to be {current_ip_address}"); if self.util.should_add_to_security_group() { match self .security_group_manager .authorize_ingress(&self.ec2, current_ip_address) .await { Ok(_) => println!("Security group rules updated"), Err(err) => eprintln!("Couldn't update security group rules: {err:?}"), } } println!("{}", self.security_group_manager); Ok(()) } /// 1. Gets a list of Amazon Linux 2 AMIs from AWS Systems Manager. Specifying the /// '/aws/service/ami-amazon-linux-latest' path returns only the latest AMIs. /// 2. Gets and displays information about the available AMIs and lets you select one. /// 3. Gets a list of instance types that are compatible with the selected AMI and /// lets you select one. /// 4. Creates an instance with the previously created key pair and security group, /// and the selected AMI and instance type. /// 5. Waits for the instance to be running and then displays its information. pub async fn create_instance(&mut self) -> Result<(), EC2Error> { let ami = self.find_image().await?; let instance_types = self .ec2 .list_instance_types(&ami.0) .await .map_err(|e| e.add_message("Could not find instance types"))?; println!( "There are several instance types that support the {} architecture of the image.", ami.0 .architecture .as_ref() .ok_or_else(|| EC2Error::new(format!("Missing architecture in {:?}", ami.0)))? ); let instance_type = self.util.select_instance_type(instance_types)?; println!("Creating your instance and waiting for it to start..."); self.instance_manager .create( &self.ec2, ami.0 .image_id() .ok_or_else(|| EC2Error::new("Could not find image ID"))?, instance_type, self.key_pair_manager.key_pair(), self.security_group_manager .security_group() .map(|sg| vec![sg]) .ok_or_else(|| EC2Error::new("Could not find security group"))?, ) .await .map_err(|e| e.add_message("Scenario failed to create instance"))?; while let Err(err) = self .ec2 .wait_for_instance_ready(self.instance_manager.instance_id(), None) .await { println!("{err}"); if !self.util.should_continue_waiting() { return Err(err); } } println!("Your instance is ready:\n{}", self.instance_manager); self.display_ssh_info(); Ok(()) } async fn find_image(&mut self) -> Result { let params: Vec = self .ssm .list_path("/aws/service/ami-amazon-linux-latest") .await .map_err(|e| e.add_message("Could not find parameters for available images"))? .into_iter() .filter(|param| param.name().is_some_and(|name| name.contains("amzn2"))) .collect(); let amzn2_images: Vec = self .ec2 .list_images(params) .await .map_err(|e| e.add_message("Could not find images"))? .into_iter() .map(ScenarioImage::from) .collect(); println!("We will now create an instance from an Amazon Linux 2 AMI"); let ami = self.util.select_scenario_image(amzn2_images)?; Ok(ami) } // 1. Stops the instance and waits for it to stop. // 2. Starts the instance and waits for it to start. // 3. Displays information about the instance. // 4. Displays an SSH connection string. When an Elastic IP address is associated // with the instance, the IP address stays consistent when the instance stops // and starts. pub async fn stop_and_start_instance(&self) -> Result<(), EC2Error> { println!("Let's stop and start your instance to see what changes."); println!("Stopping your instance and waiting until it's stopped..."); self.instance_manager.stop(&self.ec2).await?; println!("Your instance is stopped. Restarting..."); self.instance_manager.start(&self.ec2).await?; println!("Your instance is running."); println!("{}", self.instance_manager); if self.elastic_ip_manager.public_ip() == "0.0.0.0" { println!("Every time your instance is restarted, its public IP address changes."); } else { println!( "Because you have associated an Elastic IP with your instance, you can connect by using a consistent IP address after the instance restarts." ); } self.display_ssh_info(); Ok(()) } /// 1. Allocates an Elastic IP address and associates it with the instance. /// 2. Displays an SSH connection string that uses the Elastic IP address. async fn associate_elastic_ip(&mut self) -> Result<(), EC2Error> { self.elastic_ip_manager.allocate(&self.ec2).await?; println!( "Allocated static Elastic IP address: {}", self.elastic_ip_manager.public_ip() ); self.elastic_ip_manager .associate(&self.ec2, self.instance_manager.instance_id()) .await?; println!("Associated your Elastic IP with your instance."); println!("You can now use SSH to connect to your instance by using the Elastic IP."); self.display_ssh_info(); Ok(()) } /// Displays an SSH connection string that can be used to connect to a running /// instance. fn display_ssh_info(&self) { let ip_addr = if self.elastic_ip_manager.has_allocation() { self.elastic_ip_manager.public_ip() } else { self.instance_manager.instance_ip() }; let key_file_path = self.key_pair_manager.key_file_path().unwrap(); println!("To connect, open another command prompt and run the following command:"); println!("\nssh -i {} ec2-user@{ip_addr}\n", key_file_path.display()); let _ = self.util.enter_to_continue(); } /// 1. Disassociate and delete the previously created Elastic IP. /// 2. Terminate the previously created instance. /// 3. Delete the previously created security group. /// 4. Delete the previously created key pair. pub async fn clean_up(self) { println!("Let's clean everything up. This example created these resources:"); println!( "\tKey pair: {}", self.key_pair_manager .key_pair() .key_name() .unwrap_or("(unknown key pair)") ); println!( "\tSecurity group: {}", self.security_group_manager.group_name() ); println!( "\tInstance: {}", self.instance_manager.instance_display_name() ); if self.util.should_clean_resources() { if let Err(err) = self.elastic_ip_manager.remove(&self.ec2).await { eprintln!("{err}") } if let Err(err) = self.instance_manager.delete(&self.ec2).await { eprintln!("{err}") } if let Err(err) = self.security_group_manager.delete(&self.ec2).await { eprintln!("{err}"); } if let Err(err) = self.key_pair_manager.delete(&self.ec2, &self.util).await { eprintln!("{err}"); } } else { println!("Ok, not cleaning up any resources!"); } } } pub async fn run(mut scenario: Ec2InstanceScenario) { println!("--------------------------------------------------------------------------------"); println!( "Welcome to the Amazon Elastic Compute Cloud (Amazon EC2) get started with instances demo." ); println!("--------------------------------------------------------------------------------"); if let Err(err) = scenario.run().await { eprintln!("There was an error running the scenario: {err}") } println!("--------------------------------------------------------------------------------"); scenario.clean_up().await; println!("Thanks for running!"); println!("--------------------------------------------------------------------------------"); } ``` The EC2Impl struct serves as a an automock point for testing, and its functions wrap the EC2 SDK calls. ``` use std::{net::Ipv4Addr, time::Duration}; use aws_sdk_ec2::{ client::Waiters, error::ProvideErrorMetadata, operation::{ allocate_address::AllocateAddressOutput, associate_address::AssociateAddressOutput, }, types::{ DomainType, Filter, Image, Instance, InstanceType, IpPermission, IpRange, KeyPairInfo, SecurityGroup, Tag, }, Client as EC2Client, }; use aws_sdk_ssm::types::Parameter; use aws_smithy_runtime_api::client::waiters::error::WaiterError; #[cfg(test)] use mockall::automock; #[cfg(not(test))] pub use EC2Impl as EC2; #[cfg(test)] pub use MockEC2Impl as EC2; #[derive(Clone)] pub struct EC2Impl { pub client: EC2Client, } #[cfg_attr(test, automock)] impl EC2Impl { pub fn new(client: EC2Client) -> Self { EC2Impl { client } } pub async fn create_key_pair(&self, name: String) -> Result<(KeyPairInfo, String), EC2Error> { tracing::info!("Creating key pair {name}"); let output = self.client.create_key_pair().key_name(name).send().await?; let info = KeyPairInfo::builder() .set_key_name(output.key_name) .set_key_fingerprint(output.key_fingerprint) .set_key_pair_id(output.key_pair_id) .build(); let material = output .key_material .ok_or_else(|| EC2Error::new("Create Key Pair has no key material"))?; Ok((info, material)) } pub async fn list_key_pair(&self) -> Result, EC2Error> { let output = self.client.describe_key_pairs().send().await?; Ok(output.key_pairs.unwrap_or_default()) } pub async fn delete_key_pair(&self, key_name: &str) -> Result<(), EC2Error> { let key_name: String = key_name.into(); tracing::info!("Deleting key pair {key_name}"); self.client .delete_key_pair() .key_name(key_name) .send() .await?; Ok(()) } pub async fn create_security_group( &self, name: &str, description: &str, ) -> Result { tracing::info!("Creating security group {name}"); let create_output = self .client .create_security_group() .group_name(name) .description(description) .send() .await .map_err(EC2Error::from)?; let group_id = create_output .group_id .ok_or_else(|| EC2Error::new("Missing security group id after creation"))?; let group = self .describe_security_group(&group_id) .await? .ok_or_else(|| { EC2Error::new(format!("Could not find security group with id {group_id}")) })?; tracing::info!("Created security group {name} as {group_id}"); Ok(group) } /// Find a single security group, by ID. Returns Err if multiple groups are found. pub async fn describe_security_group( &self, group_id: &str, ) -> Result, EC2Error> { let group_id: String = group_id.into(); let describe_output = self .client .describe_security_groups() .group_ids(&group_id) .send() .await?; let mut groups = describe_output.security_groups.unwrap_or_default(); match groups.len() { 0 => Ok(None), 1 => Ok(Some(groups.remove(0))), _ => Err(EC2Error::new(format!( "Expected single group for {group_id}" ))), } } /// Add an ingress rule to a security group explicitly allowing IPv4 address /// as {ip}/32 over TCP port 22. pub async fn authorize_security_group_ssh_ingress( &self, group_id: &str, ingress_ips: Vec, ) -> Result<(), EC2Error> { tracing::info!("Authorizing ingress for security group {group_id}"); self.client .authorize_security_group_ingress() .group_id(group_id) .set_ip_permissions(Some( ingress_ips .into_iter() .map(|ip| { IpPermission::builder() .ip_protocol("tcp") .from_port(22) .to_port(22) .ip_ranges(IpRange::builder().cidr_ip(format!("{ip}/32")).build()) .build() }) .collect(), )) .send() .await?; Ok(()) } pub async fn delete_security_group(&self, group_id: &str) -> Result<(), EC2Error> { tracing::info!("Deleting security group {group_id}"); self.client .delete_security_group() .group_id(group_id) .send() .await?; Ok(()) } pub async fn list_images(&self, ids: Vec) -> Result, EC2Error> { let image_ids = ids.into_iter().filter_map(|p| p.value).collect(); let output = self .client .describe_images() .set_image_ids(Some(image_ids)) .send() .await?; let images = output.images.unwrap_or_default(); if images.is_empty() { Err(EC2Error::new("No images for selected AMIs")) } else { Ok(images) } } /// List instance types that match an image's architecture and are free tier eligible. pub async fn list_instance_types(&self, image: &Image) -> Result, EC2Error> { let architecture = format!( "{}", image.architecture().ok_or_else(|| EC2Error::new(format!( "Image {:?} does not have a listed architecture", image.image_id() )))? ); let free_tier_eligible_filter = Filter::builder() .name("free-tier-eligible") .values("false") .build(); let supported_architecture_filter = Filter::builder() .name("processor-info.supported-architecture") .values(architecture) .build(); let response = self .client .describe_instance_types() .filters(free_tier_eligible_filter) .filters(supported_architecture_filter) .send() .await?; Ok(response .instance_types .unwrap_or_default() .into_iter() .filter_map(|iti| iti.instance_type) .collect()) } pub async fn create_instance<'a>( &self, image_id: &'a str, instance_type: InstanceType, key_pair: &'a KeyPairInfo, security_groups: Vec<&'a SecurityGroup>, ) -> Result { let run_instances = self .client .run_instances() .image_id(image_id) .instance_type(instance_type) .key_name( key_pair .key_name() .ok_or_else(|| EC2Error::new("Missing key name when launching instance"))?, ) .set_security_group_ids(Some( security_groups .iter() .filter_map(|sg| sg.group_id.clone()) .collect(), )) .min_count(1) .max_count(1) .send() .await?; if run_instances.instances().is_empty() { return Err(EC2Error::new("Failed to create instance")); } let instance_id = run_instances.instances()[0].instance_id().unwrap(); let response = self .client .create_tags() .resources(instance_id) .tags( Tag::builder() .key("Name") .value("From SDK Examples") .build(), ) .send() .await; match response { Ok(_) => tracing::info!("Created {instance_id} and applied tags."), Err(err) => { tracing::info!("Error applying tags to {instance_id}: {err:?}"); return Err(err.into()); } } tracing::info!("Instance is created."); Ok(instance_id.to_string()) } /// Wait for an instance to be ready and status ok (default wait 60 seconds) pub async fn wait_for_instance_ready( &self, instance_id: &str, duration: Option, ) -> Result<(), EC2Error> { self.client .wait_until_instance_status_ok() .instance_ids(instance_id) .wait(duration.unwrap_or(Duration::from_secs(60))) .await .map_err(|err| match err { WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!( "Exceeded max time ({}s) waiting for instance to start.", exceeded.max_wait().as_secs() )), _ => EC2Error::from(err), })?; Ok(()) } pub async fn describe_instance(&self, instance_id: &str) -> Result { let response = self .client .describe_instances() .instance_ids(instance_id) .send() .await?; let instance = response .reservations() .first() .ok_or_else(|| EC2Error::new(format!("No instance reservations for {instance_id}")))? .instances() .first() .ok_or_else(|| { EC2Error::new(format!("No instances in reservation for {instance_id}")) })?; Ok(instance.clone()) } pub async fn start_instance(&self, instance_id: &str) -> Result<(), EC2Error> { tracing::info!("Starting instance {instance_id}"); self.client .start_instances() .instance_ids(instance_id) .send() .await?; tracing::info!("Started instance."); Ok(()) } pub async fn stop_instance(&self, instance_id: &str) -> Result<(), EC2Error> { tracing::info!("Stopping instance {instance_id}"); self.client .stop_instances() .instance_ids(instance_id) .send() .await?; self.wait_for_instance_stopped(instance_id, None).await?; tracing::info!("Stopped instance."); Ok(()) } pub async fn reboot_instance(&self, instance_id: &str) -> Result<(), EC2Error> { tracing::info!("Rebooting instance {instance_id}"); self.client .reboot_instances() .instance_ids(instance_id) .send() .await?; Ok(()) } pub async fn wait_for_instance_stopped( &self, instance_id: &str, duration: Option, ) -> Result<(), EC2Error> { self.client .wait_until_instance_stopped() .instance_ids(instance_id) .wait(duration.unwrap_or(Duration::from_secs(60))) .await .map_err(|err| match err { WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!( "Exceeded max time ({}s) waiting for instance to stop.", exceeded.max_wait().as_secs(), )), _ => EC2Error::from(err), })?; Ok(()) } pub async fn delete_instance(&self, instance_id: &str) -> Result<(), EC2Error> { tracing::info!("Deleting instance with id {instance_id}"); self.stop_instance(instance_id).await?; self.client .terminate_instances() .instance_ids(instance_id) .send() .await?; self.wait_for_instance_terminated(instance_id).await?; tracing::info!("Terminated instance with id {instance_id}"); Ok(()) } async fn wait_for_instance_terminated(&self, instance_id: &str) -> Result<(), EC2Error> { self.client .wait_until_instance_terminated() .instance_ids(instance_id) .wait(Duration::from_secs(60)) .await .map_err(|err| match err { WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!( "Exceeded max time ({}s) waiting for instance to terminate.", exceeded.max_wait().as_secs(), )), _ => EC2Error::from(err), })?; Ok(()) } pub async fn allocate_ip_address(&self) -> Result { self.client .allocate_address() .domain(DomainType::Vpc) .send() .await .map_err(EC2Error::from) } pub async fn deallocate_ip_address(&self, allocation_id: &str) -> Result<(), EC2Error> { self.client .release_address() .allocation_id(allocation_id) .send() .await?; Ok(()) } pub async fn associate_ip_address( &self, allocation_id: &str, instance_id: &str, ) -> Result { let response = self .client .associate_address() .allocation_id(allocation_id) .instance_id(instance_id) .send() .await?; Ok(response) } pub async fn disassociate_ip_address(&self, association_id: &str) -> Result<(), EC2Error> { self.client .disassociate_address() .association_id(association_id) .send() .await?; Ok(()) } } #[derive(Debug)] pub struct EC2Error(String); impl EC2Error { pub fn new(value: impl Into) -> Self { EC2Error(value.into()) } pub fn add_message(self, message: impl Into) -> Self { EC2Error(format!("{}: {}", message.into(), self.0)) } } impl From for EC2Error { fn from(value: T) -> Self { EC2Error(format!( "{}: {}", value .code() .map(String::from) .unwrap_or("unknown code".into()), value .message() .map(String::from) .unwrap_or("missing reason".into()), )) } } impl std::error::Error for EC2Error {} impl std::fmt::Display for EC2Error { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { write!(f, "{}", self.0) } } ``` The SSM struct serves as a an automock point for testing, and its functions wraps SSM SDK calls. ``` use aws_sdk_ssm::{types::Parameter, Client}; use aws_smithy_async::future::pagination_stream::TryFlatMap; use crate::ec2::EC2Error; #[cfg(test)] use mockall::automock; #[cfg(not(test))] pub use SSMImpl as SSM; #[cfg(test)] pub use MockSSMImpl as SSM; pub struct SSMImpl { inner: Client, } #[cfg_attr(test, automock)] impl SSMImpl { pub fn new(inner: Client) -> Self { SSMImpl { inner } } pub async fn list_path(&self, path: &str) -> Result, EC2Error> { let maybe_params: Vec> = TryFlatMap::new( self.inner .get_parameters_by_path() .path(path) .into_paginator() .send(), ) .flat_map(|item| item.parameters.unwrap_or_default()) .collect() .await; // Fail on the first error let params = maybe_params .into_iter() .collect::, _>>()?; Ok(params) } } ``` The scenario uses several "Manager"-style structs to handle access to resources that are created and deleted throughout the scenario. ``` use aws_sdk_ec2::operation::{ allocate_address::AllocateAddressOutput, associate_address::AssociateAddressOutput, }; use crate::ec2::{EC2Error, EC2}; /// ElasticIpManager tracks the lifecycle of a public IP address, including its /// allocation from the global pool and association with a specific instance. #[derive(Debug, Default)] pub struct ElasticIpManager { elastic_ip: Option, association: Option, } impl ElasticIpManager { pub fn has_allocation(&self) -> bool { self.elastic_ip.is_some() } pub fn public_ip(&self) -> &str { if let Some(allocation) = &self.elastic_ip { if let Some(addr) = allocation.public_ip() { return addr; } } "0.0.0.0" } pub async fn allocate(&mut self, ec2: &EC2) -> Result<(), EC2Error> { let allocation = ec2.allocate_ip_address().await?; self.elastic_ip = Some(allocation); Ok(()) } pub async fn associate(&mut self, ec2: &EC2, instance_id: &str) -> Result<(), EC2Error> { if let Some(allocation) = &self.elastic_ip { if let Some(allocation_id) = allocation.allocation_id() { let association = ec2.associate_ip_address(allocation_id, instance_id).await?; self.association = Some(association); return Ok(()); } } Err(EC2Error::new("No ip address allocation to associate")) } pub async fn remove(mut self, ec2: &EC2) -> Result<(), EC2Error> { if let Some(association) = &self.association { if let Some(association_id) = association.association_id() { ec2.disassociate_ip_address(association_id).await?; } } self.association = None; if let Some(allocation) = &self.elastic_ip { if let Some(allocation_id) = allocation.allocation_id() { ec2.deallocate_ip_address(allocation_id).await?; } } self.elastic_ip = None; Ok(()) } } use std::fmt::Display; use aws_sdk_ec2::types::{Instance, InstanceType, KeyPairInfo, SecurityGroup}; use crate::ec2::{EC2Error, EC2}; /// InstanceManager wraps the lifecycle of an EC2 Instance. #[derive(Debug, Default)] pub struct InstanceManager { instance: Option, } impl InstanceManager { pub fn instance_id(&self) -> &str { if let Some(instance) = &self.instance { if let Some(id) = instance.instance_id() { return id; } } "Unknown" } pub fn instance_name(&self) -> &str { if let Some(instance) = &self.instance { if let Some(tag) = instance.tags().iter().find(|e| e.key() == Some("Name")) { if let Some(value) = tag.value() { return value; } } } "Unknown" } pub fn instance_ip(&self) -> &str { if let Some(instance) = &self.instance { if let Some(public_ip_address) = instance.public_ip_address() { return public_ip_address; } } "0.0.0.0" } pub fn instance_display_name(&self) -> String { format!("{} ({})", self.instance_name(), self.instance_id()) } /// Create an EC2 instance with the given ID on a given type, using a /// generated KeyPair and applying a list of security groups. pub async fn create( &mut self, ec2: &EC2, image_id: &str, instance_type: InstanceType, key_pair: &KeyPairInfo, security_groups: Vec<&SecurityGroup>, ) -> Result<(), EC2Error> { let instance_id = ec2 .create_instance(image_id, instance_type, key_pair, security_groups) .await?; let instance = ec2.describe_instance(&instance_id).await?; self.instance = Some(instance); Ok(()) } /// Start the managed EC2 instance, if present. pub async fn start(&self, ec2: &EC2) -> Result<(), EC2Error> { if self.instance.is_some() { ec2.start_instance(self.instance_id()).await?; } Ok(()) } /// Stop the managed EC2 instance, if present. pub async fn stop(&self, ec2: &EC2) -> Result<(), EC2Error> { if self.instance.is_some() { ec2.stop_instance(self.instance_id()).await?; } Ok(()) } pub async fn reboot(&self, ec2: &EC2) -> Result<(), EC2Error> { if self.instance.is_some() { ec2.reboot_instance(self.instance_id()).await?; ec2.wait_for_instance_stopped(self.instance_id(), None) .await?; ec2.wait_for_instance_ready(self.instance_id(), None) .await?; } Ok(()) } /// Terminate and delete the managed EC2 instance, if present. pub async fn delete(self, ec2: &EC2) -> Result<(), EC2Error> { if self.instance.is_some() { ec2.delete_instance(self.instance_id()).await?; } Ok(()) } } impl Display for InstanceManager { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { if let Some(instance) = &self.instance { writeln!(f, "\tID: {}", instance.instance_id().unwrap_or("(Unknown)"))?; writeln!( f, "\tImage ID: {}", instance.image_id().unwrap_or("(Unknown)") )?; writeln!( f, "\tInstance type: {}", instance .instance_type() .map(|it| format!("{it}")) .unwrap_or("(Unknown)".to_string()) )?; writeln!( f, "\tKey name: {}", instance.key_name().unwrap_or("(Unknown)") )?; writeln!(f, "\tVPC ID: {}", instance.vpc_id().unwrap_or("(Unknown)"))?; writeln!( f, "\tPublic IP: {}", instance.public_ip_address().unwrap_or("(Unknown)") )?; let instance_state = instance .state .as_ref() .map(|is| { is.name() .map(|isn| format!("{isn}")) .unwrap_or("(Unknown)".to_string()) }) .unwrap_or("(Unknown)".to_string()); writeln!(f, "\tState: {instance_state}")?; } else { writeln!(f, "\tNo loaded instance")?; } Ok(()) } } use std::{env, path::PathBuf}; use aws_sdk_ec2::types::KeyPairInfo; use crate::ec2::{EC2Error, EC2}; use super::util::Util; /// KeyPairManager tracks a KeyPairInfo and the path the private key has been /// written to, if it's been created. #[derive(Debug)] pub struct KeyPairManager { key_pair: KeyPairInfo, key_file_path: Option, key_file_dir: PathBuf, } impl KeyPairManager { pub fn new() -> Self { Self::default() } pub fn key_pair(&self) -> &KeyPairInfo { &self.key_pair } pub fn key_file_path(&self) -> Option<&PathBuf> { self.key_file_path.as_ref() } pub fn key_file_dir(&self) -> &PathBuf { &self.key_file_dir } /// Creates a key pair that can be used to securely connect to an EC2 instance. /// The returned key pair contains private key information that cannot be retrieved /// again. The private key data is stored as a .pem file. /// /// :param key_name: The name of the key pair to create. pub async fn create( &mut self, ec2: &EC2, util: &Util, key_name: String, ) -> Result { let (key_pair, material) = ec2.create_key_pair(key_name.clone()).await.map_err(|e| { self.key_pair = KeyPairInfo::builder().key_name(key_name.clone()).build(); e.add_message(format!("Couldn't create key {key_name}")) })?; let path = self.key_file_dir.join(format!("{key_name}.pem")); // Save the key_pair information immediately, so it can get cleaned up if write_secure fails. self.key_file_path = Some(path.clone()); self.key_pair = key_pair.clone(); util.write_secure(&key_name, &path, material)?; Ok(key_pair) } pub async fn delete(self, ec2: &EC2, util: &Util) -> Result<(), EC2Error> { if let Some(key_name) = self.key_pair.key_name() { ec2.delete_key_pair(key_name).await?; if let Some(key_path) = self.key_file_path() { if let Err(err) = util.remove(key_path) { eprintln!("Failed to remove {key_path:?} ({err:?})"); } } } Ok(()) } pub async fn list(&self, ec2: &EC2) -> Result, EC2Error> { ec2.list_key_pair().await } } impl Default for KeyPairManager { fn default() -> Self { KeyPairManager { key_pair: KeyPairInfo::builder().build(), key_file_path: Default::default(), key_file_dir: env::temp_dir(), } } } use std::net::Ipv4Addr; use aws_sdk_ec2::types::SecurityGroup; use crate::ec2::{EC2Error, EC2}; /// SecurityGroupManager tracks the lifecycle of a SecurityGroup for an instance, /// including adding a rule to allow SSH from a public IP address. #[derive(Debug, Default)] pub struct SecurityGroupManager { group_name: String, group_description: String, security_group: Option, } impl SecurityGroupManager { pub async fn create( &mut self, ec2: &EC2, group_name: &str, group_description: &str, ) -> Result<(), EC2Error> { self.group_name = group_name.into(); self.group_description = group_description.into(); self.security_group = Some( ec2.create_security_group(group_name, group_description) .await .map_err(|e| e.add_message("Couldn't create security group"))?, ); Ok(()) } pub async fn authorize_ingress(&self, ec2: &EC2, ip_address: Ipv4Addr) -> Result<(), EC2Error> { if let Some(sg) = &self.security_group { ec2.authorize_security_group_ssh_ingress( sg.group_id() .ok_or_else(|| EC2Error::new("Missing security group ID"))?, vec![ip_address], ) .await?; }; Ok(()) } pub async fn delete(self, ec2: &EC2) -> Result<(), EC2Error> { if let Some(sg) = &self.security_group { ec2.delete_security_group( sg.group_id() .ok_or_else(|| EC2Error::new("Missing security group ID"))?, ) .await?; }; Ok(()) } pub fn group_name(&self) -> &str { &self.group_name } pub fn vpc_id(&self) -> Option<&str> { self.security_group.as_ref().and_then(|sg| sg.vpc_id()) } pub fn security_group(&self) -> Option<&SecurityGroup> { self.security_group.as_ref() } } impl std::fmt::Display for SecurityGroupManager { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match &self.security_group { Some(sg) => { writeln!( f, "Security group: {}", sg.group_name().unwrap_or("(unknown group)") )?; writeln!(f, "\tID: {}", sg.group_id().unwrap_or("(unknown group id)"))?; writeln!(f, "\tVPC: {}", sg.vpc_id().unwrap_or("(unknown group vpc)"))?; if !sg.ip_permissions().is_empty() { writeln!(f, "\tInbound Permissions:")?; for permission in sg.ip_permissions() { writeln!(f, "\t\t{permission:?}")?; } } Ok(()) } None => writeln!(f, "No security group loaded."), } } } ``` The main entry point for the scenario. ``` use ec2_code_examples::{ ec2::EC2, getting_started::{ scenario::{run, Ec2InstanceScenario}, util::UtilImpl, }, ssm::SSM, }; #[tokio::main] async fn main() { tracing_subscriber::fmt::init(); let sdk_config = aws_config::load_from_env().await; let ec2 = EC2::new(aws_sdk_ec2::Client::new(&sdk_config)); let ssm = SSM::new(aws_sdk_ssm::Client::new(&sdk_config)); let util = UtilImpl {}; let scenario = Ec2InstanceScenario::new(ec2, ssm, util); run(scenario).await; } ``` + For API details, see the following topics in *AWS SDK for Rust API reference*. + [AllocateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.allocate_address) + [AssociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.associate_address) + [AuthorizeSecurityGroupIngress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.authorize_security_group_ingress) + [CreateKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_key_pair) + [CreateSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_security_group) + [DeleteKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_key_pair) + [DeleteSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_security_group) + [DescribeImages](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_images) + [DescribeInstanceTypes](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instance_types) + [DescribeInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instances) + [DescribeKeyPairs](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_key_pairs) + [DescribeSecurityGroups](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_security_groups) + [DisassociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.disassociate_address) + [ReleaseAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.release_address) + [RunInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.run_instances) + [StartInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.start_instances) + [StopInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.stop_instances) + [TerminateInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.terminate_instances) + [UnmonitorInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.unmonitor_instances) ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). The `Package.swift` file. ``` // swift-tools-version: 5.9 // // The swift-tools-version declares the minimum version of Swift required to // build this package. import PackageDescription let package = Package( name: "ec2-scenario", // Let Xcode know the minimum Apple platforms supported. platforms: [ .macOS(.v13), .iOS(.v15) ], dependencies: [ // Dependencies declare other packages that this package depends on. .package( url: "https://github.com/awslabs/aws-sdk-swift", from: "1.4.0"), .package( url: "https://github.com/apple/swift-argument-parser.git", branch: "main" ) ], targets: [ // Targets are the basic building blocks of a package, defining a module or a test suite. // Targets can depend on other targets in this package and products // from dependencies. .executableTarget( name: "ec2-scenario", dependencies: [ .product(name: "AWSEC2", package: "aws-sdk-swift"), .product(name: "AWSSSM", package: "aws-sdk-swift"), .product(name: "ArgumentParser", package: "swift-argument-parser") ], path: "Sources") ] ) ``` The `entry.swift` file. ``` // An example that shows how to use the AWS SDK for Swift to perform a variety // of operations using Amazon Elastic Compute Cloud (EC2). // import ArgumentParser import Foundation import AWSEC2 // Allow waiters to be used. import class SmithyWaitersAPI.Waiter import struct SmithyWaitersAPI.WaiterOptions import AWSSSM struct ExampleCommand: ParsableCommand { @Option(help: "The AWS Region to run AWS API calls in.") var awsRegion = "us-east-1" @Option( help: ArgumentHelp("The level of logging for the Swift SDK to perform."), completion: .list([ "critical", "debug", "error", "info", "notice", "trace", "warning" ]) ) var logLevel: String = "error" static var configuration = CommandConfiguration( commandName: "ec2-scenario", abstract: """ Performs various operations to demonstrate the use of Amazon EC2 using the AWS SDK for Swift. """, discussion: """ """ ) /// Called by ``main()`` to run the bulk of the example. func runAsync() async throws { let ssmConfig = try await SSMClient.SSMClientConfiguration(region: awsRegion) let ssmClient = SSMClient(config: ssmConfig) let ec2Config = try await EC2Client.EC2ClientConfiguration(region: awsRegion) let ec2Client = EC2Client(config: ec2Config) let example = Example(ec2Client: ec2Client, ssmClient: ssmClient) await example.run() } } class Example { let ec2Client: EC2Client let ssmClient: SSMClient // Storage for AWS EC2 properties. var keyName: String? = nil var securityGroupId: String? = nil var instanceId: String? = nil var allocationId: String? = nil var associationId: String? = nil init(ec2Client: EC2Client, ssmClient: SSMClient) { self.ec2Client = ec2Client self.ssmClient = ssmClient } /// The example's main body. func run() async { //===================================================================== // 1. Create an RSA key pair, saving the private key as a `.pem` file. // Create a `defer` block that will delete the private key when the // program exits. //===================================================================== print("Creating an RSA key pair...") keyName = self.tempName(prefix: "ExampleKeyName") let keyUrl = await self.createKeyPair(name: keyName!) guard let keyUrl else { print("*** Failed to create the key pair!") return } print("Created the private key at: \(keyUrl.absoluteString)") // Schedule deleting the private key file to occur automatically when // the program exits, no matter how it exits. defer { do { try FileManager.default.removeItem(at: keyUrl) } catch { print("*** Failed to delete the private key at \(keyUrl.absoluteString)") } } //===================================================================== // 2. List the key pairs by calling `DescribeKeyPairs`. //===================================================================== print("Describing available key pairs...") await self.describeKeyPairs() //===================================================================== // 3. Create a security group for the default VPC, and add an inbound // rule to allow SSH from the current computer's public IPv4 // address. //===================================================================== print("Creating the security group...") let secGroupName = self.tempName(prefix: "ExampleSecurityGroup") let ipAddress = self.getMyIPAddress() guard let ipAddress else { print("*** Unable to get the device's IP address.") return } print("IP address is: \(ipAddress)") securityGroupId = await self.createSecurityGroup( name: secGroupName, description: "An example security group created using the AWS SDK for Swift" ) if securityGroupId == nil { await cleanUp() return } print("Created security group: \(securityGroupId ?? "")") if !(await self.authorizeSecurityGroupIngress(groupId: securityGroupId!, ipAddress: ipAddress)) { await cleanUp() return } //===================================================================== // 4. Display security group information for the new security group // using DescribeSecurityGroups. //===================================================================== if !(await self.describeSecurityGroups(groupId: securityGroupId!)) { await cleanUp() return } //===================================================================== // 5. Get a list of Amazon Linux 2023 AMIs and pick one (SSM is the // best practice), using path and then filter the list after the // fact to include "al2023" in the Name field // (ssm.GetParametersByPath). Paginate to get all images. //===================================================================== print("Searching available images for Amazon Linux 2023 images...") let options = await self.findAMIsMatchingFilter("al2023") //===================================================================== // 6. The information in the AMI options isn't great, so make a list // of the image IDs (the "Value" field in the AMI options) and get // more information about them from EC2. Display the Description // field and select one of them (DescribeImages with ImageIds // filter). //===================================================================== print("Images matching Amazon Linux 2023:") var imageIds: [String] = [] for option in options { guard let id = option.value else { continue } imageIds.append(id) } let images = await self.describeImages(imageIds) // This is where you would normally let the user choose which AMI to // use. However, for this example, we're just going to use the first // one, whatever it is. let chosenImage = images[0] //===================================================================== // 7. Get a list of instance types that are compatible with the // selected AMI's architecture (such as "x86_64") and are either // small or micro. Select one (DescribeInstanceTypes). //===================================================================== print("Getting the instance types compatible with the selected image...") guard let arch = chosenImage.architecture else { print("*** The selected image doesn't have a valid architecture.") await cleanUp() return } let imageTypes = await self.getMatchingInstanceTypes(architecture: arch) for type in imageTypes { guard let instanceType = type.instanceType else { continue } print(" \(instanceType.rawValue)") } // This example selects the first returned instance type. A real-world // application would probably ask the user to select one here. let chosenInstanceType = imageTypes[0] //===================================================================== // 8. Create an instance with the key pair, security group, AMI, and // instance type (RunInstances). //===================================================================== print("Creating an instance...") guard let imageId = chosenImage.imageId else { print("*** Cannot start image without a valid image ID.") await cleanUp() return } guard let instanceType = chosenInstanceType.instanceType else { print("*** Unable to start image without a valid image type.") await cleanUp() return } let instance = await self.runInstance( imageId: imageId, instanceType: instanceType, keyPairName: keyName!, securityGroups: [securityGroupId!] ) guard let instance else { await cleanUp() return } instanceId = instance.instanceId if instanceId == nil { print("*** Instance is missing an ID. Canceling.") await cleanUp() return } //===================================================================== // 9. Wait for the instance to be ready and then display its // information (DescribeInstances). //===================================================================== print("Waiting a few seconds to let the instance come up...") do { try await Task.sleep(for: .seconds(20)) } catch { print("*** Error pausing the task.") } print("Success! Your new instance is ready:") //===================================================================== // 10. Display SSH connection info for the instance. //===================================================================== var runningInstance = await self.describeInstance(instanceId: instanceId!) if (runningInstance != nil) && (runningInstance!.publicIpAddress != nil) { print("\nYou can SSH to this instance using the following command:") print("ssh -i \(keyUrl.path) ec2-user@\(runningInstance!.publicIpAddress!)") } //===================================================================== // 11. Stop the instance and wait for it to stop (StopInstances). //===================================================================== print("Stopping the instance...") if !(await self.stopInstance(instanceId: instanceId!, waitUntilStopped: true)) { await cleanUp() return } //===================================================================== // 12. Start the instance and wait for it to start (StartInstances). //===================================================================== print("Starting the instance again...") if !(await self.startInstance(instanceId: instanceId!, waitUntilStarted: true)) { await cleanUp() return } //===================================================================== // 13. Display SSH connection info for the instance. Note that it's // changed. //===================================================================== runningInstance = await self.describeInstance(instanceId: instanceId!) if (runningInstance != nil) && (runningInstance!.publicIpAddress != nil) { print("\nYou can SSH to this instance using the following command.") print("This is probably different from when the instance was running before.") print("ssh -i \(keyUrl.path) ec2-user@\(runningInstance!.publicIpAddress!)") } //===================================================================== // 14. Allocate an elastic IP and associate it with the instance // (AllocateAddress and AssociateAddress). //===================================================================== allocationId = await self.allocateAddress() if allocationId == nil { await cleanUp() return } associationId = await self.associateAddress(instanceId: instanceId!, allocationId: allocationId) if associationId == nil { await cleanUp() return } //===================================================================== // 15. Display SSH connection info for the connection. Note that the // public IP is now the Elastic IP, which stays constant. //===================================================================== runningInstance = await self.describeInstance(instanceId: instanceId!) if (runningInstance != nil) && (runningInstance!.publicIpAddress != nil) { print("\nYou can SSH to this instance using the following command.") print("This has changed again, and is now the Elastic IP.") print("ssh -i \(keyUrl.path) ec2-user@\(runningInstance!.publicIpAddress!)") } //===================================================================== // Handle all cleanup tasks //===================================================================== await cleanUp() } /// Clean up by discarding and closing down all allocated EC2 items: /// /// * Elastic IP allocation and association /// * Terminate the instance /// * Delete the security group /// * Delete the key pair func cleanUp() async { //===================================================================== // 16. Disassociate and delete the Elastic IP (DisassociateAddress and // ReleaseAddress). //===================================================================== if associationId != nil { await self.disassociateAddress(associationId: associationId!) } if allocationId != nil { await self.releaseAddress(allocationId: allocationId!) } //===================================================================== // 17. Terminate the instance and wait for it to terminate // (TerminateInstances). //===================================================================== if instanceId != nil { print("Terminating the instance...") _ = await self.terminateInstance(instanceId: instanceId!, waitUntilTerminated: true) } //===================================================================== // 18. Delete the security group (DeleteSecurityGroup). //===================================================================== if securityGroupId != nil { print("Deleting the security group...") _ = await self.deleteSecurityGroup(groupId: securityGroupId!) } //===================================================================== // 19. Delete the key pair (DeleteKeyPair). //===================================================================== if keyName != nil { print("Deleting the key pair...") _ = await self.deleteKeyPair(keyPair: keyName!) } } /// Create a new RSA key pair and save the private key to a randomly-named /// file in the temporary directory. /// /// - Parameter name: The name of the key pair to create. /// /// - Returns: The URL of the newly created `.pem` file or `nil` if unable /// to create the key pair. func createKeyPair(name: String) async -> URL? { do { let output = try await ec2Client.createKeyPair( input: CreateKeyPairInput( keyName: name ) ) guard let keyMaterial = output.keyMaterial else { return nil } // Build the URL of the temporary private key file. let fileURL = URL.temporaryDirectory .appendingPathComponent(name) .appendingPathExtension("pem") do { try keyMaterial.write(to: fileURL, atomically: true, encoding: String.Encoding.utf8) return fileURL } catch { print("*** Failed to write the private key.") return nil } } catch { print("*** Unable to create the key pair.") return nil } } /// Describe the key pairs associated with the user by outputting each key /// pair's name and fingerprint. func describeKeyPairs() async { do { let output = try await ec2Client.describeKeyPairs( input: DescribeKeyPairsInput() ) guard let keyPairs = output.keyPairs else { print("*** No key pairs list available.") return } for keyPair in keyPairs { print(keyPair.keyName ?? "", ":", keyPair.keyFingerprint ?? "") } } catch { print("*** Error: Unable to obtain a key pair list.") } } /// Delete an EC2 key pair. /// /// - Parameter keyPair: The name of the key pair to delete. /// /// - Returns: `true` if the key pair is deleted successfully; otherwise /// `false`. func deleteKeyPair(keyPair: String) async -> Bool { do { _ = try await ec2Client.deleteKeyPair( input: DeleteKeyPairInput( keyName: keyPair ) ) return true } catch { print("*** Error deleting the key pair: \(error.localizedDescription)") return false } } /// Return a list of AMI names that contain the specified string. /// /// - Parameter filter: A string that must be contained in all returned /// AMI names. /// /// - Returns: An array of the parameters matching the specified substring. func findAMIsMatchingFilter(_ filter: String) async -> [SSMClientTypes.Parameter] { var parameterList: [SSMClientTypes.Parameter] = [] var matchingAMIs: [SSMClientTypes.Parameter] = [] do { let pages = ssmClient.getParametersByPathPaginated( input: GetParametersByPathInput( path: "/aws/service/ami-amazon-linux-latest" ) ) for try await page in pages { guard let parameters = page.parameters else { return matchingAMIs } for parameter in parameters { parameterList.append(parameter) } } print("Found \(parameterList.count) images total:") for parameter in parameterList { guard let name = parameter.name else { continue } print(" \(name)") if name.contains(filter) { matchingAMIs.append(parameter) } } } catch { return matchingAMIs } return matchingAMIs } /// Return a list of instance types matching the specified architecture /// and instance sizes. /// /// - Parameters: /// - architecture: The architecture of the instance types to return, as /// a member of `EC2ClientTypes.ArchitectureValues`. /// - sizes: An array of one or more strings identifying sizes of /// instance type to accept. /// /// - Returns: An array of `EC2ClientTypes.InstanceTypeInfo` records /// describing the instance types matching the given requirements. func getMatchingInstanceTypes(architecture: EC2ClientTypes.ArchitectureValues = EC2ClientTypes.ArchitectureValues.x8664, sizes: [String] = ["*.micro", "*.small"]) async -> [EC2ClientTypes.InstanceTypeInfo] { var instanceTypes: [EC2ClientTypes.InstanceTypeInfo] = [] let archFilter = EC2ClientTypes.Filter( name: "processor-info.supported-architecture", values: [architecture.rawValue] ) let sizeFilter = EC2ClientTypes.Filter( name: "instance-type", values: sizes ) do { let pages = ec2Client.describeInstanceTypesPaginated( input: DescribeInstanceTypesInput( filters: [archFilter, sizeFilter] ) ) for try await page in pages { guard let types = page.instanceTypes else { return [] } instanceTypes += types } } catch { print("*** Error getting image types: \(error.localizedDescription)") return [] } return instanceTypes } /// Get the latest information about the specified instance and output it /// to the screen, returning the instance details to the caller. /// /// - Parameters: /// - instanceId: The ID of the instance to provide details about. /// - stateFilter: The state to require the instance to be in. /// /// - Returns: The instance's details as an `EC2ClientTypes.Instance` object. func describeInstance(instanceId: String, stateFilter: EC2ClientTypes.InstanceStateName? = EC2ClientTypes.InstanceStateName.running) async -> EC2ClientTypes.Instance? { do { let pages = ec2Client.describeInstancesPaginated( input: DescribeInstancesInput( instanceIds: [instanceId] ) ) for try await page in pages { guard let reservations = page.reservations else { continue } for reservation in reservations { guard let instances = reservation.instances else { continue } for instance in instances { guard let state = instance.state else { print("*** Instance is missing its state...") continue } let instanceState = state.name if stateFilter != nil && (instanceState != stateFilter) { continue } let instanceTypeName: String if instance.instanceType == nil { instanceTypeName = "" } else { instanceTypeName = instance.instanceType?.rawValue ?? "" } let instanceStateName: String if instanceState == nil { instanceStateName = "" } else { instanceStateName = instanceState?.rawValue ?? "" } print(""" Instance: \(instance.instanceId ?? "") • Image ID: \(instance.imageId ?? "") • Instance type: \(instanceTypeName) • Key name: \(instance.keyName ?? "") • VPC ID: \(instance.vpcId ?? "") • Public IP: \(instance.publicIpAddress ?? "N/A") • State: \(instanceStateName) """) return instance } } } } catch { print("*** Error retrieving instance information to display: \(error.localizedDescription)") return nil } return nil } /// Stop the specified instance. /// /// - Parameters: /// - instanceId: The ID of the instance to stop. /// - waitUntilStopped: If `true`, execution waits until the instance /// has stopped. Otherwise, execution continues and the instance stops /// asynchronously. /// /// - Returns: `true` if the image is successfully stopped (or is left to /// stop asynchronously). `false` if the instance doesn't stop. func stopInstance(instanceId: String, waitUntilStopped: Bool = false) async -> Bool { let instanceList = [instanceId] do { _ = try await ec2Client.stopInstances( input: StopInstancesInput( instanceIds: instanceList ) ) if waitUntilStopped { print("Waiting for the instance to stop. Please be patient!") let waitOptions = WaiterOptions(maxWaitTime: 600) let output = try await ec2Client.waitUntilInstanceStopped( options: waitOptions, input: DescribeInstancesInput( instanceIds: instanceList ) ) switch output.result { case .success: return true case .failure: return false } } else { return true } } catch { print("*** Unable to stop the instance: \(error.localizedDescription)") return false } } /// Start the specified instance. /// /// - Parameters: /// - instanceId: The ID of the instance to start. /// - waitUntilStarted: If `true`, execution waits until the instance /// has started. Otherwise, execution continues and the instance starts /// asynchronously. /// /// - Returns: `true` if the image is successfully started (or is left to /// start asynchronously). `false` if the instance doesn't start. func startInstance(instanceId: String, waitUntilStarted: Bool = false) async -> Bool { let instanceList = [instanceId] do { _ = try await ec2Client.startInstances( input: StartInstancesInput( instanceIds: instanceList ) ) if waitUntilStarted { print("Waiting for the instance to start...") let waitOptions = WaiterOptions(maxWaitTime: 60.0) let output = try await ec2Client.waitUntilInstanceRunning( options: waitOptions, input: DescribeInstancesInput( instanceIds: instanceList ) ) switch output.result { case .success: return true case .failure: return false } } else { return true } } catch { print("*** Unable to start the instance: \(error.localizedDescription)") return false } } /// Terminate the specified instance. /// /// - Parameters: /// - instanceId: The instance to terminate. /// - waitUntilTerminated: Whether or not to wait until the instance is /// terminated before returning. /// /// - Returns: `true` if terminated successfully. `false` if not or if an /// error occurs. func terminateInstance(instanceId: String, waitUntilTerminated: Bool = false) async -> Bool { let instanceList = [instanceId] do { _ = try await ec2Client.terminateInstances( input: TerminateInstancesInput( instanceIds: instanceList ) ) if waitUntilTerminated { print("Waiting for the instance to terminate...") let waitOptions = WaiterOptions(maxWaitTime: 600.0) let output = try await ec2Client.waitUntilInstanceTerminated( options: waitOptions, input: DescribeInstancesInput( instanceIds: instanceList ) ) switch output.result { case .success: return true case .failure: return false } } else { return true } } catch { print("*** Unable to terminate the instance: \(error.localizedDescription)") return false } } /// Return an array of `EC2ClientTypes.Image` objects describing all of /// the images in the specified array. /// /// - Parameter idList: A list of image ID strings indicating the images /// to return details about. /// /// - Returns: An array of the images. func describeImages(_ idList: [String]) async -> [EC2ClientTypes.Image] { do { let output = try await ec2Client.describeImages( input: DescribeImagesInput( imageIds: idList ) ) guard let images = output.images else { print("*** No images found.") return [] } for image in images { guard let id = image.imageId else { continue } print(" \(id): \(image.description ?? "")") } return images } catch { print("*** Error getting image descriptions: \(error.localizedDescription)") return [] } } /// Create and return a new EC2 instance. /// /// - Parameters: /// - imageId: The image ID of the AMI to use when creating the instance. /// - instanceType: The type of instance to create. /// - keyPairName: The RSA key pair's name to use to secure the instance. /// - securityGroups: The security group or groups to add the instance /// to. /// /// - Returns: The EC2 instance as an `EC2ClientTypes.Instance` object. func runInstance(imageId: String, instanceType: EC2ClientTypes.InstanceType, keyPairName: String, securityGroups: [String]?) async -> EC2ClientTypes.Instance? { do { let output = try await ec2Client.runInstances( input: RunInstancesInput( imageId: imageId, instanceType: instanceType, keyName: keyPairName, maxCount: 1, minCount: 1, securityGroupIds: securityGroups ) ) guard let instances = output.instances else { print("*** Unable to create the instance.") return nil } return instances[0] } catch { print("*** Error creating the instance: \(error.localizedDescription)") return nil } } /// Return the device's external IP address. /// /// - Returns: A string containing the device's IP address. func getMyIPAddress() -> String? { guard let url = URL(string: "http://checkip.amazonaws.com") else { print("Couldn't create the URL") return nil } do { print("Getting the IP address...") return try String(contentsOf: url, encoding: String.Encoding.utf8).trim() } catch { print("*** Unable to get your public IP address.") return nil } } /// Create a new security group. /// /// - Parameters: /// - groupName: The name of the group to create. /// - groupDescription: A description of the new security group. /// /// - Returns: The ID string of the new security group. func createSecurityGroup(name groupName: String, description groupDescription: String) async -> String? { do { let output = try await ec2Client.createSecurityGroup( input: CreateSecurityGroupInput( description: groupDescription, groupName: groupName ) ) return output.groupId } catch { print("*** Error creating the security group: \(error.localizedDescription)") return nil } } /// Authorize ingress of connections for the security group. /// /// - Parameters: /// - groupId: The group ID of the security group to authorize access for. /// - ipAddress: The IP address of the device to grant access to. /// /// - Returns: `true` if access is successfully granted; otherwise `false`. func authorizeSecurityGroupIngress(groupId: String, ipAddress: String) async -> Bool { let ipRange = EC2ClientTypes.IpRange(cidrIp: "\(ipAddress)/0") let httpPermission = EC2ClientTypes.IpPermission( fromPort: 80, ipProtocol: "tcp", ipRanges: [ipRange], toPort: 80 ) let sshPermission = EC2ClientTypes.IpPermission( fromPort: 22, ipProtocol: "tcp", ipRanges: [ipRange], toPort: 22 ) do { _ = try await ec2Client.authorizeSecurityGroupIngress( input: AuthorizeSecurityGroupIngressInput( groupId: groupId, ipPermissions: [httpPermission, sshPermission] ) ) return true } catch { print("*** Error authorizing ingress for the security group: \(error.localizedDescription)") return false } } func describeSecurityGroups(groupId: String) async -> Bool { do { let output = try await ec2Client.describeSecurityGroups( input: DescribeSecurityGroupsInput( groupIds: [groupId] ) ) guard let securityGroups = output.securityGroups else { print("No security groups found.") return true } for group in securityGroups { print("Group \(group.groupId ?? "") found with VPC \(group.vpcId ?? "")") } return true } catch { print("*** Error getting security group details: \(error.localizedDescription)") return false } } /// Delete a security group. /// /// - Parameter groupId: The ID of the security group to delete. /// /// - Returns: `true` on successful deletion; `false` on error. func deleteSecurityGroup(groupId: String) async -> Bool { do { _ = try await ec2Client.deleteSecurityGroup( input: DeleteSecurityGroupInput( groupId: groupId ) ) return true } catch { print("*** Error deleting the security group: \(error.localizedDescription)") return false } } /// Allocate an Elastic IP address. /// /// - Returns: A string containing the ID of the Elastic IP. func allocateAddress() async -> String? { do { let output = try await ec2Client.allocateAddress( input: AllocateAddressInput( domain: EC2ClientTypes.DomainType.vpc ) ) guard let allocationId = output.allocationId else { return nil } return allocationId } catch { print("*** Unable to allocate the IP address: \(error.localizedDescription)") return nil } } /// Associate the specified allocated Elastic IP to a given instance. /// /// - Parameters: /// - instanceId: The instance to associate the Elastic IP with. /// - allocationId: The ID of the allocated Elastic IP to associate with /// the instance. /// /// - Returns: The association ID of the association. func associateAddress(instanceId: String?, allocationId: String?) async -> String? { do { let output = try await ec2Client.associateAddress( input: AssociateAddressInput( allocationId: allocationId, instanceId: instanceId ) ) return output.associationId } catch { print("*** Unable to associate the IP address: \(error.localizedDescription)") return nil } } /// Disassociate an Elastic IP. /// /// - Parameter associationId: The ID of the association to end. func disassociateAddress(associationId: String?) async { do { _ = try await ec2Client.disassociateAddress( input: DisassociateAddressInput( associationId: associationId ) ) } catch { print("*** Unable to disassociate the IP address: \(error.localizedDescription)") } } /// Release an allocated Elastic IP. /// /// - Parameter allocationId: The allocation ID of the Elastic IP to /// release. func releaseAddress(allocationId: String?) async { do { _ = try await ec2Client.releaseAddress( input: ReleaseAddressInput( allocationId: allocationId ) ) } catch { print("*** Unable to release the IP address: \(error.localizedDescription)") } } /// Generate and return a unique file name that begins with the specified /// string. /// /// - Parameters: /// - prefix: Text to use at the beginning of the returned name. /// /// - Returns: A string containing a unique filename that begins with the /// specified `prefix`. /// /// The returned name uses a random number between 1 million and 1 billion to /// provide reasonable certainty of uniqueness for the purposes of this /// example. func tempName(prefix: String) -> String { return "\(prefix)-\(Int.random(in: 1000000..<1000000000))" } } /// The program's asynchronous entry point. @main struct Main { static func main() async { let args = Array(CommandLine.arguments.dropFirst()) do { let command = try ExampleCommand.parse(args) try await command.runAsync() } catch { ExampleCommand.exit(withError: error) } } } ``` + For API details, see the following topics in *AWS SDK for Swift API reference*. + [AllocateAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/allocateaddress(input:)) + [AssociateAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/associateaddress(input:)) + [AuthorizeSecurityGroupIngress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/authorizesecuritygroupingress(input:)) + [CreateKeyPair](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/createkeypair(input:)) + [CreateSecurityGroup](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/createsecuritygroup(input:)) + [DeleteKeyPair](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/deletekeypair(input:)) + [DeleteSecurityGroup](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/deletesecuritygroup(input:)) + [DescribeImages](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describeimages(input:)) + [DescribeInstanceTypes](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describeinstancetypes(input:)) + [DescribeInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describeinstances(input:)) + [DescribeKeyPairs](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describekeypairs(input:)) + [DescribeSecurityGroups](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describesecuritygroups(input:)) + [DisassociateAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/disassociateaddress(input:)) + [ReleaseAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/releaseaddress(input:)) + [RunInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/runinstances(input:)) + [StartInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/startinstances(input:)) + [StopInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/stopinstances(input:)) + [TerminateInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/terminateinstances(input:)) + [UnmonitorInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/unmonitorinstances(input:)) ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Actions for Amazon EC2 using AWS SDKs The following code examples demonstrate how to perform individual Amazon EC2 actions with AWS SDKs. Each example includes a link to GitHub, where you can find instructions for setting up and running the code. These excerpts call the Amazon EC2 API and are code excerpts from larger programs that must be run in context. You can see actions in context in [Scenarios for Amazon EC2 using AWS SDKs](service_code_examples_scenarios.md). The following examples include only the most commonly used actions. For a complete list, see the [Amazon Elastic Compute Cloud API Reference](https://docs.aws.amazon.com/AWSEC2/latest/APIReference/Welcome.html). **Topics** + [`AcceptVpcPeeringConnection`](example_ec2_AcceptVpcPeeringConnection_section.md) + [`AllocateAddress`](example_ec2_AllocateAddress_section.md) + [`AllocateHosts`](example_ec2_AllocateHosts_section.md) + [`AssignPrivateIpAddresses`](example_ec2_AssignPrivateIpAddresses_section.md) + [`AssociateAddress`](example_ec2_AssociateAddress_section.md) + [`AssociateDhcpOptions`](example_ec2_AssociateDhcpOptions_section.md) + [`AssociateRouteTable`](example_ec2_AssociateRouteTable_section.md) + [`AttachInternetGateway`](example_ec2_AttachInternetGateway_section.md) + [`AttachNetworkInterface`](example_ec2_AttachNetworkInterface_section.md) + [`AttachVolume`](example_ec2_AttachVolume_section.md) + [`AttachVpnGateway`](example_ec2_AttachVpnGateway_section.md) + [`AuthorizeSecurityGroupEgress`](example_ec2_AuthorizeSecurityGroupEgress_section.md) + [`AuthorizeSecurityGroupIngress`](example_ec2_AuthorizeSecurityGroupIngress_section.md) + [`CancelCapacityReservation`](example_ec2_CancelCapacityReservation_section.md) + [`CancelImportTask`](example_ec2_CancelImportTask_section.md) + [`CancelSpotFleetRequests`](example_ec2_CancelSpotFleetRequests_section.md) + [`CancelSpotInstanceRequests`](example_ec2_CancelSpotInstanceRequests_section.md) + [`ConfirmProductInstance`](example_ec2_ConfirmProductInstance_section.md) + [`CopyImage`](example_ec2_CopyImage_section.md) + [`CopySnapshot`](example_ec2_CopySnapshot_section.md) + [`CreateCapacityReservation`](example_ec2_CreateCapacityReservation_section.md) + [`CreateCustomerGateway`](example_ec2_CreateCustomerGateway_section.md) + [`CreateDhcpOptions`](example_ec2_CreateDhcpOptions_section.md) + [`CreateFlowLogs`](example_ec2_CreateFlowLogs_section.md) + [`CreateImage`](example_ec2_CreateImage_section.md) + [`CreateInstanceExportTask`](example_ec2_CreateInstanceExportTask_section.md) + [`CreateInternetGateway`](example_ec2_CreateInternetGateway_section.md) + [`CreateKeyPair`](example_ec2_CreateKeyPair_section.md) + [`CreateLaunchTemplate`](example_ec2_CreateLaunchTemplate_section.md) + [`CreateNetworkAcl`](example_ec2_CreateNetworkAcl_section.md) + [`CreateNetworkAclEntry`](example_ec2_CreateNetworkAclEntry_section.md) + [`CreateNetworkInterface`](example_ec2_CreateNetworkInterface_section.md) + [`CreatePlacementGroup`](example_ec2_CreatePlacementGroup_section.md) + [`CreateRoute`](example_ec2_CreateRoute_section.md) + [`CreateRouteTable`](example_ec2_CreateRouteTable_section.md) + [`CreateSecurityGroup`](example_ec2_CreateSecurityGroup_section.md) + [`CreateSnapshot`](example_ec2_CreateSnapshot_section.md) + [`CreateSpotDatafeedSubscription`](example_ec2_CreateSpotDatafeedSubscription_section.md) + [`CreateSubnet`](example_ec2_CreateSubnet_section.md) + [`CreateTags`](example_ec2_CreateTags_section.md) + [`CreateVolume`](example_ec2_CreateVolume_section.md) + [`CreateVpc`](example_ec2_CreateVpc_section.md) + [`CreateVpcEndpoint`](example_ec2_CreateVpcEndpoint_section.md) + [`CreateVpnConnection`](example_ec2_CreateVpnConnection_section.md) + [`CreateVpnConnectionRoute`](example_ec2_CreateVpnConnectionRoute_section.md) + [`CreateVpnGateway`](example_ec2_CreateVpnGateway_section.md) + [`DeleteCustomerGateway`](example_ec2_DeleteCustomerGateway_section.md) + [`DeleteDhcpOptions`](example_ec2_DeleteDhcpOptions_section.md) + [`DeleteFlowLogs`](example_ec2_DeleteFlowLogs_section.md) + [`DeleteInternetGateway`](example_ec2_DeleteInternetGateway_section.md) + [`DeleteKeyPair`](example_ec2_DeleteKeyPair_section.md) + [`DeleteLaunchTemplate`](example_ec2_DeleteLaunchTemplate_section.md) + [`DeleteNetworkAcl`](example_ec2_DeleteNetworkAcl_section.md) + [`DeleteNetworkAclEntry`](example_ec2_DeleteNetworkAclEntry_section.md) + [`DeleteNetworkInterface`](example_ec2_DeleteNetworkInterface_section.md) + [`DeletePlacementGroup`](example_ec2_DeletePlacementGroup_section.md) + [`DeleteRoute`](example_ec2_DeleteRoute_section.md) + [`DeleteRouteTable`](example_ec2_DeleteRouteTable_section.md) + [`DeleteSecurityGroup`](example_ec2_DeleteSecurityGroup_section.md) + [`DeleteSnapshot`](example_ec2_DeleteSnapshot_section.md) + [`DeleteSpotDatafeedSubscription`](example_ec2_DeleteSpotDatafeedSubscription_section.md) + [`DeleteSubnet`](example_ec2_DeleteSubnet_section.md) + [`DeleteTags`](example_ec2_DeleteTags_section.md) + [`DeleteVolume`](example_ec2_DeleteVolume_section.md) + [`DeleteVpc`](example_ec2_DeleteVpc_section.md) + [`DeleteVpcEndpoints`](example_ec2_DeleteVpcEndpoints_section.md) + [`DeleteVpnConnection`](example_ec2_DeleteVpnConnection_section.md) + [`DeleteVpnConnectionRoute`](example_ec2_DeleteVpnConnectionRoute_section.md) + [`DeleteVpnGateway`](example_ec2_DeleteVpnGateway_section.md) + [`DeregisterImage`](example_ec2_DeregisterImage_section.md) + [`DescribeAccountAttributes`](example_ec2_DescribeAccountAttributes_section.md) + [`DescribeAddresses`](example_ec2_DescribeAddresses_section.md) + [`DescribeAvailabilityZones`](example_ec2_DescribeAvailabilityZones_section.md) + [`DescribeBundleTasks`](example_ec2_DescribeBundleTasks_section.md) + [`DescribeCapacityReservations`](example_ec2_DescribeCapacityReservations_section.md) + [`DescribeCustomerGateways`](example_ec2_DescribeCustomerGateways_section.md) + [`DescribeDhcpOptions`](example_ec2_DescribeDhcpOptions_section.md) + [`DescribeFlowLogs`](example_ec2_DescribeFlowLogs_section.md) + [`DescribeHostReservationOfferings`](example_ec2_DescribeHostReservationOfferings_section.md) + [`DescribeHosts`](example_ec2_DescribeHosts_section.md) + [`DescribeIamInstanceProfileAssociations`](example_ec2_DescribeIamInstanceProfileAssociations_section.md) + [`DescribeIdFormat`](example_ec2_DescribeIdFormat_section.md) + [`DescribeIdentityIdFormat`](example_ec2_DescribeIdentityIdFormat_section.md) + [`DescribeImageAttribute`](example_ec2_DescribeImageAttribute_section.md) + [`DescribeImages`](example_ec2_DescribeImages_section.md) + [`DescribeImportImageTasks`](example_ec2_DescribeImportImageTasks_section.md) + [`DescribeImportSnapshotTasks`](example_ec2_DescribeImportSnapshotTasks_section.md) + [`DescribeInstanceAttribute`](example_ec2_DescribeInstanceAttribute_section.md) + [`DescribeInstanceStatus`](example_ec2_DescribeInstanceStatus_section.md) + [`DescribeInstanceTypes`](example_ec2_DescribeInstanceTypes_section.md) + [`DescribeInstances`](example_ec2_DescribeInstances_section.md) + [`DescribeInternetGateways`](example_ec2_DescribeInternetGateways_section.md) + [`DescribeKeyPairs`](example_ec2_DescribeKeyPairs_section.md) + [`DescribeNetworkAcls`](example_ec2_DescribeNetworkAcls_section.md) + [`DescribeNetworkInterfaceAttribute`](example_ec2_DescribeNetworkInterfaceAttribute_section.md) + [`DescribeNetworkInterfaces`](example_ec2_DescribeNetworkInterfaces_section.md) + [`DescribePlacementGroups`](example_ec2_DescribePlacementGroups_section.md) + [`DescribePrefixLists`](example_ec2_DescribePrefixLists_section.md) + [`DescribeRegions`](example_ec2_DescribeRegions_section.md) + [`DescribeRouteTables`](example_ec2_DescribeRouteTables_section.md) + [`DescribeScheduledInstanceAvailability`](example_ec2_DescribeScheduledInstanceAvailability_section.md) + [`DescribeScheduledInstances`](example_ec2_DescribeScheduledInstances_section.md) + [`DescribeSecurityGroups`](example_ec2_DescribeSecurityGroups_section.md) + [`DescribeSnapshotAttribute`](example_ec2_DescribeSnapshotAttribute_section.md) + [`DescribeSnapshots`](example_ec2_DescribeSnapshots_section.md) + [`DescribeSpotDatafeedSubscription`](example_ec2_DescribeSpotDatafeedSubscription_section.md) + [`DescribeSpotFleetInstances`](example_ec2_DescribeSpotFleetInstances_section.md) + [`DescribeSpotFleetRequestHistory`](example_ec2_DescribeSpotFleetRequestHistory_section.md) + [`DescribeSpotFleetRequests`](example_ec2_DescribeSpotFleetRequests_section.md) + [`DescribeSpotInstanceRequests`](example_ec2_DescribeSpotInstanceRequests_section.md) + [`DescribeSpotPriceHistory`](example_ec2_DescribeSpotPriceHistory_section.md) + [`DescribeSubnets`](example_ec2_DescribeSubnets_section.md) + [`DescribeTags`](example_ec2_DescribeTags_section.md) + [`DescribeVolumeAttribute`](example_ec2_DescribeVolumeAttribute_section.md) + [`DescribeVolumeStatus`](example_ec2_DescribeVolumeStatus_section.md) + [`DescribeVolumes`](example_ec2_DescribeVolumes_section.md) + [`DescribeVpcAttribute`](example_ec2_DescribeVpcAttribute_section.md) + [`DescribeVpcClassicLink`](example_ec2_DescribeVpcClassicLink_section.md) + [`DescribeVpcClassicLinkDnsSupport`](example_ec2_DescribeVpcClassicLinkDnsSupport_section.md) + [`DescribeVpcEndpointServices`](example_ec2_DescribeVpcEndpointServices_section.md) + [`DescribeVpcEndpoints`](example_ec2_DescribeVpcEndpoints_section.md) + [`DescribeVpcs`](example_ec2_DescribeVpcs_section.md) + [`DescribeVpnConnections`](example_ec2_DescribeVpnConnections_section.md) + [`DescribeVpnGateways`](example_ec2_DescribeVpnGateways_section.md) + [`DetachInternetGateway`](example_ec2_DetachInternetGateway_section.md) + [`DetachNetworkInterface`](example_ec2_DetachNetworkInterface_section.md) + [`DetachVolume`](example_ec2_DetachVolume_section.md) + [`DetachVpnGateway`](example_ec2_DetachVpnGateway_section.md) + [`DisableVgwRoutePropagation`](example_ec2_DisableVgwRoutePropagation_section.md) + [`DisableVpcClassicLink`](example_ec2_DisableVpcClassicLink_section.md) + [`DisableVpcClassicLinkDnsSupport`](example_ec2_DisableVpcClassicLinkDnsSupport_section.md) + [`DisassociateAddress`](example_ec2_DisassociateAddress_section.md) + [`DisassociateRouteTable`](example_ec2_DisassociateRouteTable_section.md) + [`EnableVgwRoutePropagation`](example_ec2_EnableVgwRoutePropagation_section.md) + [`EnableVolumeIo`](example_ec2_EnableVolumeIo_section.md) + [`EnableVpcClassicLink`](example_ec2_EnableVpcClassicLink_section.md) + [`EnableVpcClassicLinkDnsSupport`](example_ec2_EnableVpcClassicLinkDnsSupport_section.md) + [`GetConsoleOutput`](example_ec2_GetConsoleOutput_section.md) + [`GetHostReservationPurchasePreview`](example_ec2_GetHostReservationPurchasePreview_section.md) + [`GetPasswordData`](example_ec2_GetPasswordData_section.md) + [`ImportImage`](example_ec2_ImportImage_section.md) + [`ImportKeyPair`](example_ec2_ImportKeyPair_section.md) + [`ImportSnapshot`](example_ec2_ImportSnapshot_section.md) + [`ModifyCapacityReservation`](example_ec2_ModifyCapacityReservation_section.md) + [`ModifyHosts`](example_ec2_ModifyHosts_section.md) + [`ModifyIdFormat`](example_ec2_ModifyIdFormat_section.md) + [`ModifyImageAttribute`](example_ec2_ModifyImageAttribute_section.md) + [`ModifyInstanceAttribute`](example_ec2_ModifyInstanceAttribute_section.md) + [`ModifyInstanceCreditSpecification`](example_ec2_ModifyInstanceCreditSpecification_section.md) + [`ModifyNetworkInterfaceAttribute`](example_ec2_ModifyNetworkInterfaceAttribute_section.md) + [`ModifyReservedInstances`](example_ec2_ModifyReservedInstances_section.md) + [`ModifySnapshotAttribute`](example_ec2_ModifySnapshotAttribute_section.md) + [`ModifySpotFleetRequest`](example_ec2_ModifySpotFleetRequest_section.md) + [`ModifySubnetAttribute`](example_ec2_ModifySubnetAttribute_section.md) + [`ModifyVolumeAttribute`](example_ec2_ModifyVolumeAttribute_section.md) + [`ModifyVpcAttribute`](example_ec2_ModifyVpcAttribute_section.md) + [`MonitorInstances`](example_ec2_MonitorInstances_section.md) + [`MoveAddressToVpc`](example_ec2_MoveAddressToVpc_section.md) + [`PurchaseHostReservation`](example_ec2_PurchaseHostReservation_section.md) + [`PurchaseScheduledInstances`](example_ec2_PurchaseScheduledInstances_section.md) + [`RebootInstances`](example_ec2_RebootInstances_section.md) + [`RegisterImage`](example_ec2_RegisterImage_section.md) + [`RejectVpcPeeringConnection`](example_ec2_RejectVpcPeeringConnection_section.md) + [`ReleaseAddress`](example_ec2_ReleaseAddress_section.md) + [`ReleaseHosts`](example_ec2_ReleaseHosts_section.md) + [`ReplaceIamInstanceProfileAssociation`](example_ec2_ReplaceIamInstanceProfileAssociation_section.md) + [`ReplaceNetworkAclAssociation`](example_ec2_ReplaceNetworkAclAssociation_section.md) + [`ReplaceNetworkAclEntry`](example_ec2_ReplaceNetworkAclEntry_section.md) + [`ReplaceRoute`](example_ec2_ReplaceRoute_section.md) + [`ReplaceRouteTableAssociation`](example_ec2_ReplaceRouteTableAssociation_section.md) + [`ReportInstanceStatus`](example_ec2_ReportInstanceStatus_section.md) + [`RequestSpotFleet`](example_ec2_RequestSpotFleet_section.md) + [`RequestSpotInstances`](example_ec2_RequestSpotInstances_section.md) + [`ResetImageAttribute`](example_ec2_ResetImageAttribute_section.md) + [`ResetInstanceAttribute`](example_ec2_ResetInstanceAttribute_section.md) + [`ResetNetworkInterfaceAttribute`](example_ec2_ResetNetworkInterfaceAttribute_section.md) + [`ResetSnapshotAttribute`](example_ec2_ResetSnapshotAttribute_section.md) + [`RevokeSecurityGroupEgress`](example_ec2_RevokeSecurityGroupEgress_section.md) + [`RevokeSecurityGroupIngress`](example_ec2_RevokeSecurityGroupIngress_section.md) + [`RunInstances`](example_ec2_RunInstances_section.md) + [`RunScheduledInstances`](example_ec2_RunScheduledInstances_section.md) + [`StartInstances`](example_ec2_StartInstances_section.md) + [`StopInstances`](example_ec2_StopInstances_section.md) + [`TerminateInstances`](example_ec2_TerminateInstances_section.md) + [`UnassignPrivateIpAddresses`](example_ec2_UnassignPrivateIpAddresses_section.md) + [`UnmonitorInstances`](example_ec2_UnmonitorInstances_section.md) + [`UpdateSecurityGroupRuleDescriptionsIngress`](example_ec2_UpdateSecurityGroupRuleDescriptionsIngress_section.md) # Use `AcceptVpcPeeringConnection` with a CLI The following code examples show how to use `AcceptVpcPeeringConnection`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Working with VPC peering connections](example_ec2_GettingStarted_015_section.md) ------ #### [ CLI ] **AWS CLI** **To accept a VPC peering connection** This example accepts the specified VPC peering connection request. Command: ``` aws ec2 accept-vpc-peering-connection --vpc-peering-connection-id pcx-1a2b3c4d ``` Output: ``` { "VpcPeeringConnection": { "Status": { "Message": "Provisioning", "Code": "provisioning" }, "Tags": [], "AccepterVpcInfo": { "OwnerId": "444455556666", "VpcId": "vpc-44455566", "CidrBlock": "10.0.1.0/28" }, "VpcPeeringConnectionId": "pcx-1a2b3c4d", "RequesterVpcInfo": { "OwnerId": "444455556666", "VpcId": "vpc-111abc45", "CidrBlock": "10.0.0.0/28" } } } ``` + For API details, see [AcceptVpcPeeringConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/accept-vpc-peering-connection.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example approves the requested VpcPeeringConnectionId pcx-1dfad234b56ff78be** ``` Approve-EC2VpcPeeringConnection -VpcPeeringConnectionId pcx-1dfad234b56ff78be ``` **Output:** ``` AccepterVpcInfo : Amazon.EC2.Model.VpcPeeringConnectionVpcInfo ExpirationTime : 1/1/0001 12:00:00 AM RequesterVpcInfo : Amazon.EC2.Model.VpcPeeringConnectionVpcInfo Status : Amazon.EC2.Model.VpcPeeringConnectionStateReason Tags : {} VpcPeeringConnectionId : pcx-1dfad234b56ff78be ``` + For API details, see [AcceptVpcPeeringConnection](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example approves the requested VpcPeeringConnectionId pcx-1dfad234b56ff78be** ``` Approve-EC2VpcPeeringConnection -VpcPeeringConnectionId pcx-1dfad234b56ff78be ``` **Output:** ``` AccepterVpcInfo : Amazon.EC2.Model.VpcPeeringConnectionVpcInfo ExpirationTime : 1/1/0001 12:00:00 AM RequesterVpcInfo : Amazon.EC2.Model.VpcPeeringConnectionVpcInfo Status : Amazon.EC2.Model.VpcPeeringConnectionStateReason Tags : {} VpcPeeringConnectionId : pcx-1dfad234b56ff78be ``` + For API details, see [AcceptVpcPeeringConnection](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AllocateAddress` with an AWS SDK or CLI The following code examples show how to use `AllocateAddress`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Allocates an Elastic IP address that can be associated with an Amazon EC2 // instance. By using an Elastic IP address, you can keep the public IP address // constant even when you restart the associated instance. /// /// The response object for the allocated address. public async Task AllocateAddress() { var request = new AllocateAddressRequest(); try { var response = await _amazonEC2.AllocateAddressAsync(request); Console.WriteLine($"Allocated IP: {response.PublicIp} with allocation ID {response.AllocationId}."); return response; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "AddressLimitExceeded") { // For more information on Elastic IP address quotas, see: // https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html#using-instance-addressing-limit _logger.LogError($"Unable to allocate Elastic IP, address limit exceeded. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError($"An error occurred while allocating Elastic IP.: {ex.Message}"); throw; } } ``` + For API details, see [AllocateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AllocateAddress) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_allocate_address # # This function allocates an Elastic IP address for use with Amazon Elastic Compute Cloud (Amazon EC2) instances in a specific AWS Region. # # Parameters: # -d domain - The domain for the Elastic IP address (either 'vpc' or 'standard'). # # Returns: # The allocated Elastic IP address, or an error message if the operation fails. # And: # 0 - If successful. # 1 - If it fails. # ############################################################################### function ec2_allocate_address() { local domain response # Function to display usage information function usage() { echo "function ec2_allocate_address" echo "Allocates an Elastic IP address for use with Amazon Elastic Compute Cloud (Amazon EC2) instances in a specific AWS Region." echo " -d domain - The domain for the Elastic IP address (either 'vpc' or 'standard')." echo "" } # Parse the command-line arguments while getopts "d:h" option; do case "${option}" in d) domain="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Validate the input parameters if [[ -z "$domain" ]]; then errecho "ERROR: You must provide a domain with the -d parameter (either 'vpc' or 'standard')." return 1 fi if [[ "$domain" != "vpc" && "$domain" != "standard" ]]; then errecho "ERROR: Invalid domain value. Must be either 'vpc' or 'standard'." return 1 fi # Allocate the Elastic IP address response=$(aws ec2 allocate-address \ --domain "$domain" \ --query "[PublicIp,AllocationId]" \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports allocate-address operation failed." errecho "$response" return 1 } echo "$response" return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [AllocateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AllocateAddress) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Allocate an Elastic IP address and associate it with an Amazon Elastic Compute Cloud //! (Amazon EC2) instance. /*! \param instanceID: An EC2 instance ID. \param[out] publicIPAddress: String to return the public IP address. \param[out] allocationID: String to return the allocation ID. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::allocateAndAssociateAddress(const Aws::String &instanceId, Aws::String &publicIPAddress, Aws::String &allocationID, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::AllocateAddressRequest request; request.SetDomain(Aws::EC2::Model::DomainType::vpc); const Aws::EC2::Model::AllocateAddressOutcome outcome = ec2Client.AllocateAddress(request); if (!outcome.IsSuccess()) { std::cerr << "Failed to allocate Elastic IP address:" << outcome.GetError().GetMessage() << std::endl; return false; } const Aws::EC2::Model::AllocateAddressResponse &response = outcome.GetResult(); allocationID = response.GetAllocationId(); publicIPAddress = response.GetPublicIp(); return true; } ``` + For API details, see [AllocateAddress](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/AllocateAddress) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To allocate an Elastic IP address from Amazon's address pool** The following `allocate-address` example allocates an Elastic IP address. Amazon EC2 selects the address from Amazon's address pool. ``` aws ec2 allocate-address ``` Output: ``` { "PublicIp": "70.224.234.241", "AllocationId": "eipalloc-01435ba59eEXAMPLE", "PublicIpv4Pool": "amazon", "NetworkBorderGroup": "us-west-2", "Domain": "vpc" } ``` For more information, see [Elastic IP addresses](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html) in the *Amazon EC2 User Guide*. **Example 2: To allocate an Elastic IP address and associate it with a network border group** The following `allocate-address` example allocates an Elastic IP address and associates it with the specified network border group. ``` aws ec2 allocate-address \ --network-border-group us-west-2-lax-1 ``` Output: ``` { "PublicIp": "70.224.234.241", "AllocationId": "eipalloc-e03dd489ceEXAMPLE", "PublicIpv4Pool": "amazon", "NetworkBorderGroup": "us-west-2-lax-1", "Domain": "vpc" } ``` For more information, see [Elastic IP addresses](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html) in the *Amazon EC2 User Guide*. **Example 3: To allocate an Elastic IP address from an address pool that you own** The following `allocate-address` example allocates an Elastic IP address from an address pool that you have brought to your Amazon Web Services account. Amazon EC2 selects the address from the address pool. ``` aws ec2 allocate-address \ --public-ipv4-pool ipv4pool-ec2-1234567890abcdef0 ``` Output: ``` { "AllocationId": "eipalloc-02463d08ceEXAMPLE", "NetworkBorderGroup": "us-west-2", "CustomerOwnedIp": "18.218.95.81", "CustomerOwnedIpv4Pool": "ipv4pool-ec2-1234567890abcdef0", "Domain": "vpc" "NetworkBorderGroup": "us-west-2", } ``` For more information, see [Elastic IP addresses](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html) in the *Amazon EC2 User Guide*. **Example 4: To allocate an Elastic IP address from an IPAM pool** The following `allocate-address` example allocates a specific /32 Elastic IP address from an Amazon VPC IP Address Manager (IPAM) pool. ``` aws ec2 allocate-address \ --region us-east-1 \ --ipam-pool-id ipam-pool-1234567890abcdef0 \ --address 192.0.2.0 ``` Output: ``` { "PublicIp": "192.0.2.0", "AllocationId": "eipalloc-abcdef01234567890", "PublicIpv4Pool": "ipam-pool-1234567890abcdef0", "NetworkBorderGroup": "us-east-1", "Domain": "vpc" } ``` For more information, see [Allocate sequential Elastic IP addresses from an IPAM pool](https://docs.aws.amazon.com/vpc/latest/ipam/tutorials-eip-pool.html) in the *Amazon VPC IPAM User Guide*. + For API details, see [AllocateAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/allocate-address.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Allocates an Elastic IP address asynchronously in the VPC domain. * * @return a {@link CompletableFuture} containing the allocation ID of the allocated Elastic IP address */ public CompletableFuture allocateAddressAsync() { AllocateAddressRequest allocateRequest = AllocateAddressRequest.builder() .domain(DomainType.VPC) .build(); CompletableFuture responseFuture = getAsyncClient().allocateAddress(allocateRequest); return responseFuture.thenApply(AllocateAddressResponse::allocationId).whenComplete((result, ex) -> { if (ex != null) { throw new RuntimeException("Failed to allocate address", ex); } }); } ``` + For API details, see [AllocateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AllocateAddress) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { AllocateAddressCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * Allocates an Elastic IP address to your AWS account. */ export const main = async () => { const client = new EC2Client({}); const command = new AllocateAddressCommand({}); try { const { AllocationId, PublicIp } = await client.send(command); console.log("A new IP address has been allocated to your account:"); console.log(`ID: ${AllocationId} Public IP: ${PublicIp}`); console.log( "You can view your IP addresses in the AWS Management Console for Amazon EC2. Look under Network & Security > Elastic IPs", ); } catch (caught) { if (caught instanceof Error && caught.name === "MissingParameter") { console.warn(`${caught.message}. Did you provide these values?`); } else { throw caught; } } }; import { fileURLToPath } from "node:url"; // Call function if run directly. if (process.argv[1] === fileURLToPath(import.meta.url)) { main(); } ``` + For API details, see [AllocateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AllocateAddressCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun getAllocateAddress(instanceIdVal: String?): String? { val allocateRequest = AllocateAddressRequest { domain = DomainType.Vpc } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val allocateResponse = ec2.allocateAddress(allocateRequest) val allocationIdVal = allocateResponse.allocationId val request = AssociateAddressRequest { instanceId = instanceIdVal allocationId = allocationIdVal } val associateResponse = ec2.associateAddress(request) return associateResponse.associationId } } ``` + For API details, see [AllocateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example allocates an Elastic IP address to use with an instance in a VPC.** ``` New-EC2Address -Domain Vpc ``` **Output:** ``` AllocationId Domain PublicIp ------------ ------ -------- eipalloc-12345678 vpc 198.51.100.2 ``` **Example 2: This example allocates an Elastic IP address to use with an instance in EC2-Classic.** ``` New-EC2Address ``` **Output:** ``` AllocationId Domain PublicIp ------------ ------ -------- standard 203.0.113.17 ``` + For API details, see [AllocateAddress](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example allocates an Elastic IP address to use with an instance in a VPC.** ``` New-EC2Address -Domain Vpc ``` **Output:** ``` AllocationId Domain PublicIp ------------ ------ -------- eipalloc-12345678 vpc 198.51.100.2 ``` **Example 2: This example allocates an Elastic IP address to use with an instance in EC2-Classic.** ``` New-EC2Address ``` **Output:** ``` AllocationId Domain PublicIp ------------ ------ -------- standard 203.0.113.17 ``` + For API details, see [AllocateAddress](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class ElasticIpWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Elastic IP address actions using the client interface.""" class ElasticIp: """Represents an Elastic IP and its associated instance.""" def __init__( self, allocation_id: str, public_ip: str, instance_id: Optional[str] = None ) -> None: """ Initializes the ElasticIp object. :param allocation_id: The allocation ID of the Elastic IP. :param public_ip: The public IP address of the Elastic IP. :param instance_id: The ID of the associated EC2 instance, if any. """ self.allocation_id = allocation_id self.public_ip = public_ip self.instance_id = instance_id def __init__(self, ec2_client: Any) -> None: """ Initializes the ElasticIpWrapper with an EC2 client. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. """ self.ec2_client = ec2_client self.elastic_ips: List[ElasticIpWrapper.ElasticIp] = [] @classmethod def from_client(cls) -> "ElasticIpWrapper": """ Creates an ElasticIpWrapper instance with a default EC2 client. :return: An instance of ElasticIpWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def allocate(self) -> "ElasticIpWrapper.ElasticIp": """ Allocates an Elastic IP address that can be associated with an Amazon EC2 instance. By using an Elastic IP address, you can keep the public IP address constant even when you restart the associated instance. :return: The ElasticIp object for the newly created Elastic IP address. :raises ClientError: If the allocation fails, such as reaching the maximum limit of Elastic IPs. """ try: response = self.ec2_client.allocate_address(Domain="vpc") elastic_ip = self.ElasticIp( allocation_id=response["AllocationId"], public_ip=response["PublicIp"] ) self.elastic_ips.append(elastic_ip) except ClientError as err: if err.response["Error"]["Code"] == "AddressLimitExceeded": logger.error( "Max IP's reached. Release unused addresses or contact AWS Support for an increase." ) raise err return elastic_ip ``` + For API details, see [AllocateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AllocateAddress) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` # Creates an Elastic IP address in Amazon Virtual Private Cloud (Amazon VPC). # # @param ec2_client [Aws::EC2::Client] An initialized EC2 client. # @return [String] The allocation ID corresponding to the Elastic IP address. # @example # puts allocate_elastic_ip_address(Aws::EC2::Client.new(region: 'us-west-2')) def allocate_elastic_ip_address(ec2_client) response = ec2_client.allocate_address(domain: 'vpc') response.allocation_id rescue StandardError => e puts "Error allocating Elastic IP address: #{e.message}" 'Error' end ``` + For API details, see [AllocateAddress](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/AllocateAddress) in *AWS SDK for Ruby API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn allocate_ip_address(&self) -> Result { self.client .allocate_address() .domain(DomainType::Vpc) .send() .await .map_err(EC2Error::from) } ``` + For API details, see [AllocateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.allocate_address) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. oo_result = lo_ec2->allocateaddress( iv_domain = 'vpc' ). " oo_result is returned for testing purposes. " MESSAGE 'Allocated an Elastic IP address.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [AllocateAddress](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Allocate an Elastic IP address. /// /// - Returns: A string containing the ID of the Elastic IP. func allocateAddress() async -> String? { do { let output = try await ec2Client.allocateAddress( input: AllocateAddressInput( domain: EC2ClientTypes.DomainType.vpc ) ) guard let allocationId = output.allocationId else { return nil } return allocationId } catch { print("*** Unable to allocate the IP address: \(error.localizedDescription)") return nil } } ``` + For API details, see [AllocateAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/allocateaddress(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AllocateHosts` with a CLI The following code examples show how to use `AllocateHosts`. ------ #### [ CLI ] **AWS CLI** **Example 1: To allocate a Dedicated Host** The following `allocate-hosts` example allocates a single Dedicated Host in the `eu-west-1a` Availability Zone, onto which you can launch `m5.large` instances. By default, the Dedicated Host accepts only target instance launches, and does not support host recovery. ``` aws ec2 allocate-hosts \ --instance-type m5.large \ --availability-zone eu-west-1a \ --quantity 1 ``` Output: ``` { "HostIds": [ "h-07879acf49EXAMPLE" ] } ``` **Example 2: To allocate a Dedicated Host with auto-placement and host recovery enabled** The following `allocate-hosts` example allocates a single Dedicated Host in the `eu-west-1a` Availability Zone with auto-placement and host recovery enabled. ``` aws ec2 allocate-hosts \ --instance-type m5.large \ --availability-zone eu-west-1a \ --auto-placement on \ --host-recovery on \ --quantity 1 ``` Output: ``` { "HostIds": [ "h-07879acf49EXAMPLE" ] } ``` **Example 3: To allocate a Dedicated Host with tags** The following `allocate-hosts` example allocates a single Dedicated Host and applies a tag with a key named `purpose` and a value of `production`. ``` aws ec2 allocate-hosts \ --instance-type m5.large \ --availability-zone eu-west-1a \ --quantity 1 \ --tag-specifications 'ResourceType=dedicated-host,Tags={Key=purpose,Value=production}' ``` Output: ``` { "HostIds": [ "h-07879acf49EXAMPLE" ] } ``` For more information, see [Allocate a Dedicated Host](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/dedicated-hosts-allocating.html) in the *Amazon EC2 User Guide*. + For API details, see [AllocateHosts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/allocate-hosts.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example allocates a Dedicated Host to your account for the given instance type and availability zone** ``` New-EC2Host -AutoPlacement on -AvailabilityZone eu-west-1b -InstanceType m4.xlarge -Quantity 1 ``` **Output:** ``` h-01e23f4cd567890f3 ``` + For API details, see [AllocateHosts](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example allocates a Dedicated Host to your account for the given instance type and availability zone** ``` New-EC2Host -AutoPlacement on -AvailabilityZone eu-west-1b -InstanceType m4.xlarge -Quantity 1 ``` **Output:** ``` h-01e23f4cd567890f3 ``` + For API details, see [AllocateHosts](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AssignPrivateIpAddresses` with a CLI The following code examples show how to use `AssignPrivateIpAddresses`. ------ #### [ CLI ] **AWS CLI** **To assign a specific secondary private IP address a network interface** This example assigns the specified secondary private IP address to the specified network interface. If the command succeeds, no output is returned. Command: ``` aws ec2 assign-private-ip-addresses --network-interface-id eni-e5aa89a3 --private-ip-addresses 10.0.0.82 ``` **To assign secondary private IP addresses that Amazon EC2 selects to a network interface** This example assigns two secondary private IP addresses to the specified network interface. Amazon EC2 automatically assigns these IP addresses from the available IP addresses in the CIDR block range of the subnet the network interface is associated with. If the command succeeds, no output is returned. Command: ``` aws ec2 assign-private-ip-addresses --network-interface-id eni-e5aa89a3 --secondary-private-ip-address-count 2 ``` + For API details, see [AssignPrivateIpAddresses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/assign-private-ip-addresses.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example assigns the specified secondary private IP address to the specified network interface.** ``` Register-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -PrivateIpAddress 10.0.0.82 ``` **Example 2: This example creates two secondary private IP addresses and assigns them to the specified network interface.** ``` Register-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -SecondaryPrivateIpAddressCount 2 ``` + For API details, see [AssignPrivateIpAddresses](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example assigns the specified secondary private IP address to the specified network interface.** ``` Register-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -PrivateIpAddress 10.0.0.82 ``` **Example 2: This example creates two secondary private IP addresses and assigns them to the specified network interface.** ``` Register-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -SecondaryPrivateIpAddressCount 2 ``` + For API details, see [AssignPrivateIpAddresses](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AssociateAddress` with an AWS SDK or CLI The following code examples show how to use `AssociateAddress`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Associates an Elastic IP address with an instance. When this association is /// created, the Elastic IP's public IP address is immediately used as the public /// IP address of the associated instance. /// /// The allocation Id of an Elastic IP address. /// The instance Id of the EC2 instance to /// associate the address with. /// The association Id that represents /// the association of the Elastic IP address with an instance. public async Task AssociateAddress(string allocationId, string instanceId) { try { var request = new AssociateAddressRequest { AllocationId = allocationId, InstanceId = instanceId }; var response = await _amazonEC2.AssociateAddressAsync(request); return response.AssociationId; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceId") { _logger.LogError( $"InstanceId is invalid, unable to associate address. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while associating the Elastic IP.: {ex.Message}"); throw; } } ``` + For API details, see [AssociateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AssociateAddress) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_associate_address # # This function associates an Elastic IP address with an Amazon Elastic Compute Cloud (Amazon EC2) instance. # # Parameters: # -a allocation_id - The allocation ID of the Elastic IP address to associate. # -i instance_id - The ID of the EC2 instance to associate the Elastic IP address with. # # Returns: # 0 - If successful. # 1 - If it fails. # ############################################################################### function ec2_associate_address() { local allocation_id instance_id response # Function to display usage information function usage() { echo "function ec2_associate_address" echo "Associates an Elastic IP address with an Amazon Elastic Compute Cloud (Amazon EC2) instance." echo " -a allocation_id - The allocation ID of the Elastic IP address to associate." echo " -i instance_id - The ID of the EC2 instance to associate the Elastic IP address with." echo "" } # Parse the command-line arguments while getopts "a:i:h" option; do case "${option}" in a) allocation_id="${OPTARG}" ;; i) instance_id="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Validate the input parameters if [[ -z "$allocation_id" ]]; then errecho "ERROR: You must provide an allocation ID with the -a parameter." return 1 fi if [[ -z "$instance_id" ]]; then errecho "ERROR: You must provide an instance ID with the -i parameter." return 1 fi # Associate the Elastic IP address response=$(aws ec2 associate-address \ --allocation-id "$allocation_id" \ --instance-id "$instance_id" \ --query "AssociationId" \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports associate-address operation failed." errecho "$response" return 1 } echo "$response" return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [AssociateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AssociateAddress) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` Aws::EC2::EC2Client ec2Client(clientConfiguration); //! Associate an Elastic IP address with an EC2 instance. /*! \param instanceId: An EC2 instance ID. \param allocationId: An Elastic IP allocation ID. \param[out] associationID: String to receive the association ID. \param clientConfiguration: AWS client configuration. \return bool: True if the address was associated with the instance; otherwise, false. */ bool AwsDoc::EC2::associateAddress(const Aws::String &instanceId, const Aws::String &allocationId, Aws::String &associationID, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::AssociateAddressRequest request; request.SetInstanceId(instanceId); request.SetAllocationId(allocationId); Aws::EC2::Model::AssociateAddressOutcome outcome = ec2Client.AssociateAddress(request); if (!outcome.IsSuccess()) { std::cerr << "Failed to associate address " << allocationId << " with instance " << instanceId << ": " << outcome.GetError().GetMessage() << std::endl; } else { std::cout << "Successfully associated address " << allocationId << " with instance " << instanceId << std::endl; associationID = outcome.GetResult().GetAssociationId(); } return outcome.IsSuccess(); } ``` + For API details, see [AssociateAddress](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/AssociateAddress) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To associate an Elastic IP address with an instance** The following `associate-address` example associates an Elastic IP address with the specified EC2 instance. ``` aws ec2 associate-address \ --instance-id i-0b263919b6498b123 \ --allocation-id eipalloc-64d5890a ``` Output: ``` { "AssociationId": "eipassoc-2bebb745" } ``` **Example 2: To associate an Elastic IP address with a network interface** The following `associate-address` example associates the specified Elastic IP address with the specified network interface. ``` aws ec2 associate-address --allocation-id eipalloc-64d5890a \ --network-interface-id eni-1a2b3c4d ``` Output: ``` { "AssociationId": "eipassoc-2bebb745" } ``` **Example 3: To associate an Elastic IP address with a private IP address** The following `associate-address` example associates the specified Elastic IP address with the specified private IP address in the specified network interface. ``` aws ec2 associate-address \ --allocation-id eipalloc-64d5890a \ --network-interface-id eni-1a2b3c4d \ --private-ip-address 10.0.0.85 ``` Output: ``` { "AssociationId": "eipassoc-2bebb745" } ``` For more information, see [Elastic IP addresses](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/elastic-ip-addresses-eip.html) in the *Amazon EC2 User Guide*. + For API details, see [AssociateAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-address.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Associates an Elastic IP address with an EC2 instance asynchronously. * * @param instanceId the ID of the EC2 instance to associate the Elastic IP address with * @param allocationId the allocation ID of the Elastic IP address to associate * @return a {@link CompletableFuture} that completes with the association ID when the operation is successful, * or throws a {@link RuntimeException} if the operation fails */ public CompletableFuture associateAddressAsync(String instanceId, String allocationId) { AssociateAddressRequest associateRequest = AssociateAddressRequest.builder() .instanceId(instanceId) .allocationId(allocationId) .build(); CompletableFuture responseFuture = getAsyncClient().associateAddress(associateRequest); return responseFuture.thenApply(response -> { if (response.associationId() != null) { return response.associationId(); } else { throw new RuntimeException("Association ID is null after associating address."); } }).whenComplete((result, ex) -> { if (ex != null) { throw new RuntimeException("Failed to associate address", ex); } }); } ``` + For API details, see [AssociateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AssociateAddress) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { AssociateAddressCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * Associates an Elastic IP address, or carrier IP address (for instances that are in subnets in Wavelength Zones) * with an instance or a network interface. * @param {{ instanceId: string, allocationId: string }} options */ export const main = async ({ instanceId, allocationId }) => { const client = new EC2Client({}); const command = new AssociateAddressCommand({ // You need to allocate an Elastic IP address before associating it with an instance. // You can do that with the AllocateAddressCommand. AllocationId: allocationId, // You need to create an EC2 instance before an IP address can be associated with it. // You can do that with the RunInstancesCommand. InstanceId: instanceId, }); try { const { AssociationId } = await client.send(command); console.log( `Address with allocation ID ${allocationId} is now associated with instance ${instanceId}.`, `The association ID is ${AssociationId}.`, ); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidAllocationID.NotFound" ) { console.warn( `${caught.message}. Did you provide the ID of a valid Elastic IP address AllocationId?`, ); } else { throw caught; } } }; ``` + For API details, see [AssociateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AssociateAddressCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun associateAddressSc( instanceIdVal: String?, allocationIdVal: String?, ): String? { val associateRequest = AssociateAddressRequest { instanceId = instanceIdVal allocationId = allocationIdVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val associateResponse = ec2.associateAddress(associateRequest) return associateResponse.associationId } } ``` + For API details, see [AssociateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example associates the specified Elastic IP address with the specified instance in a VPC.** ``` C:\> Register-EC2Address -InstanceId i-12345678 -AllocationId eipalloc-12345678 ``` **Output:** ``` eipassoc-12345678 ``` **Example 2: This example associates the specified Elastic IP address with the specified instance in EC2-Classic.** ``` C:\> Register-EC2Address -InstanceId i-12345678 -PublicIp 203.0.113.17 ``` + For API details, see [AssociateAddress](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example associates the specified Elastic IP address with the specified instance in a VPC.** ``` C:\> Register-EC2Address -InstanceId i-12345678 -AllocationId eipalloc-12345678 ``` **Output:** ``` eipassoc-12345678 ``` **Example 2: This example associates the specified Elastic IP address with the specified instance in EC2-Classic.** ``` C:\> Register-EC2Address -InstanceId i-12345678 -PublicIp 203.0.113.17 ``` + For API details, see [AssociateAddress](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class ElasticIpWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Elastic IP address actions using the client interface.""" class ElasticIp: """Represents an Elastic IP and its associated instance.""" def __init__( self, allocation_id: str, public_ip: str, instance_id: Optional[str] = None ) -> None: """ Initializes the ElasticIp object. :param allocation_id: The allocation ID of the Elastic IP. :param public_ip: The public IP address of the Elastic IP. :param instance_id: The ID of the associated EC2 instance, if any. """ self.allocation_id = allocation_id self.public_ip = public_ip self.instance_id = instance_id def __init__(self, ec2_client: Any) -> None: """ Initializes the ElasticIpWrapper with an EC2 client. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. """ self.ec2_client = ec2_client self.elastic_ips: List[ElasticIpWrapper.ElasticIp] = [] @classmethod def from_client(cls) -> "ElasticIpWrapper": """ Creates an ElasticIpWrapper instance with a default EC2 client. :return: An instance of ElasticIpWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def associate( self, allocation_id: str, instance_id: str ) -> Union[Dict[str, Any], None]: """ Associates an Elastic IP address with an instance. When this association is created, the Elastic IP's public IP address is immediately used as the public IP address of the associated instance. :param allocation_id: The allocation ID of the Elastic IP. :param instance_id: The ID of the Amazon EC2 instance. :return: A response that contains the ID of the association, or None if no Elastic IP is found. :raises ClientError: If the association fails, such as when the instance ID is not found. """ elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id) if elastic_ip is None: logger.info(f"No Elastic IP found with allocation ID {allocation_id}.") return None try: response = self.ec2_client.associate_address( AllocationId=allocation_id, InstanceId=instance_id ) elastic_ip.instance_id = ( instance_id # Track the instance associated with this Elastic IP. ) except ClientError as err: if err.response["Error"]["Code"] == "InvalidInstanceID.NotFound": logger.error( f"Failed to associate Elastic IP {allocation_id} with {instance_id} " "because the specified instance ID does not exist or has not propagated fully. " "Verify the instance ID and try again, or wait a few moments before attempting to " "associate the Elastic IP address." ) raise return response ``` + For API details, see [AssociateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AssociateAddress) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` # Associates an Elastic IP address with an Amazon Elastic Compute Cloud # (Amazon EC2) instance. # # Prerequisites: # # - The allocation ID corresponding to the Elastic IP address. # - The Amazon EC2 instance. # # @param ec2_client [Aws::EC2::Client] An initialized EC2 client. # @param allocation_id [String] The ID of the allocation corresponding to # the Elastic IP address. # @param instance_id [String] The ID of the instance. # @return [String] The assocation ID corresponding to the association of the # Elastic IP address to the instance. # @example # puts allocate_elastic_ip_address( # Aws::EC2::Client.new(region: 'us-west-2'), # 'eipalloc-04452e528a66279EX', # 'i-033c48ef067af3dEX') def associate_elastic_ip_address_with_instance( ec2_client, allocation_id, instance_id ) response = ec2_client.associate_address( allocation_id: allocation_id, instance_id: instance_id ) response.association_id rescue StandardError => e puts "Error associating Elastic IP address with instance: #{e.message}" 'Error' end ``` + For API details, see [AssociateAddress](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/AssociateAddress) in *AWS SDK for Ruby API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn associate_ip_address( &self, allocation_id: &str, instance_id: &str, ) -> Result { let response = self .client .associate_address() .allocation_id(allocation_id) .instance_id(instance_id) .send() .await?; Ok(response) } ``` + For API details, see [AssociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.associate_address) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. oo_result = lo_ec2->associateaddress( " oo_result is returned for testing purposes. " iv_allocationid = iv_allocation_id iv_instanceid = iv_instance_id ). MESSAGE 'Associated an Elastic IP address with an EC2 instance.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [AssociateAddress](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Associate the specified allocated Elastic IP to a given instance. /// /// - Parameters: /// - instanceId: The instance to associate the Elastic IP with. /// - allocationId: The ID of the allocated Elastic IP to associate with /// the instance. /// /// - Returns: The association ID of the association. func associateAddress(instanceId: String?, allocationId: String?) async -> String? { do { let output = try await ec2Client.associateAddress( input: AssociateAddressInput( allocationId: allocationId, instanceId: instanceId ) ) return output.associationId } catch { print("*** Unable to associate the IP address: \(error.localizedDescription)") return nil } } ``` + For API details, see [AssociateAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/associateaddress(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AssociateDhcpOptions` with a CLI The following code examples show how to use `AssociateDhcpOptions`. ------ #### [ CLI ] **AWS CLI** **To associate a DHCP options set with your VPC** This example associates the specified DHCP options set with the specified VPC. If the command succeeds, no output is returned. Command: ``` aws ec2 associate-dhcp-options --dhcp-options-id dopt-d9070ebb --vpc-id vpc-a01106c2 ``` **To associate the default DHCP options set with your VPC** This example associates the default DHCP options set with the specified VPC. If the command succeeds, no output is returned. Command: ``` aws ec2 associate-dhcp-options --dhcp-options-id default --vpc-id vpc-a01106c2 ``` + For API details, see [AssociateDhcpOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-dhcp-options.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example associates the specified DHCP options set with the specified VPC.** ``` Register-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d -VpcId vpc-12345678 ``` **Example 2: This example associates the default DHCP options set with the specified VPC.** ``` Register-EC2DhcpOption -DhcpOptionsId default -VpcId vpc-12345678 ``` + For API details, see [AssociateDhcpOptions](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example associates the specified DHCP options set with the specified VPC.** ``` Register-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d -VpcId vpc-12345678 ``` **Example 2: This example associates the default DHCP options set with the specified VPC.** ``` Register-EC2DhcpOption -DhcpOptionsId default -VpcId vpc-12345678 ``` + For API details, see [AssociateDhcpOptions](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AssociateRouteTable` with a CLI The following code examples show how to use `AssociateRouteTable`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) + [Working with VPC peering connections](example_ec2_GettingStarted_015_section.md) ------ #### [ CLI ] **AWS CLI** **To associate a route table with a subnet** This example associates the specified route table with the specified subnet. Command: ``` aws ec2 associate-route-table --route-table-id rtb-22574640 --subnet-id subnet-9d4a7b6c ``` Output: ``` { "AssociationId": "rtbassoc-781d0d1a" } ``` + For API details, see [AssociateRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/associate-route-table.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example associates the specified route table with the specified subnet.** ``` Register-EC2RouteTable -RouteTableId rtb-1a2b3c4d -SubnetId subnet-1a2b3c4d ``` **Output:** ``` rtbassoc-12345678 ``` + For API details, see [AssociateRouteTable](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example associates the specified route table with the specified subnet.** ``` Register-EC2RouteTable -RouteTableId rtb-1a2b3c4d -SubnetId subnet-1a2b3c4d ``` **Output:** ``` rtbassoc-12345678 ``` + For API details, see [AssociateRouteTable](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AttachInternetGateway` with a CLI The following code examples show how to use `AttachInternetGateway`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ CLI ] **AWS CLI** **To attach an internet gateway to your VPC** The following `attach-internet-gateway` example attaches the specified internet gateway to the specific VPC. ``` aws ec2 attach-internet-gateway \ --internet-gateway-id igw-0d0fb496b3EXAMPLE \ --vpc-id vpc-0a60eb65b4EXAMPLE ``` This command produces no output. For more information, see [Internet gateways](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Internet_Gateway.html) in the *Amazon VPC User Guide*. + For API details, see [AttachInternetGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/attach-internet-gateway.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example attaches the specified Internet gateway to the specified VPC.** ``` Add-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d -VpcId vpc-12345678 ``` **Example 2: This example creates a VPC and an Internet gateway, and then attaches the Internet gateway to the VPC.** ``` $vpc = New-EC2Vpc -CidrBlock 10.0.0.0/16 New-EC2InternetGateway | Add-EC2InternetGateway -VpcId $vpc.VpcId ``` + For API details, see [AttachInternetGateway](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example attaches the specified Internet gateway to the specified VPC.** ``` Add-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d -VpcId vpc-12345678 ``` **Example 2: This example creates a VPC and an Internet gateway, and then attaches the Internet gateway to the VPC.** ``` $vpc = New-EC2Vpc -CidrBlock 10.0.0.0/16 New-EC2InternetGateway | Add-EC2InternetGateway -VpcId $vpc.VpcId ``` + For API details, see [AttachInternetGateway](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AttachNetworkInterface` with a CLI The following code examples show how to use `AttachNetworkInterface`. ------ #### [ CLI ] **AWS CLI** **Example 1: To attach a network interface to an instance** The following `attach-network-interface` example attaches the specified network interface to the specified instance. ``` aws ec2 attach-network-interface \ --network-interface-id eni-0dc56a8d4640ad10a \ --instance-id i-1234567890abcdef0 \ --device-index 1 ``` Output: ``` { "AttachmentId": "eni-attach-01a8fc87363f07cf9" } ``` For more information, see [Elastic network interfaces](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-eni.html) in the *Amazon EC2 User Guide*. **Example 2: To attach a network interface to an instance with multiple network cards** The following `attach-network-interface` example attaches the specified network interface to the specified instance and network card. ``` aws ec2 attach-network-interface \ --network-interface-id eni-07483b1897541ad83 \ --instance-id i-01234567890abcdef \ --network-card-index 1 \ --device-index 1 ``` Output: ``` { "AttachmentId": "eni-attach-0fbd7ee87a88cd06c" } ``` For more information, see [Elastic network interfaces](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-eni.html) in the *Amazon EC2 User Guide*. + For API details, see [AttachNetworkInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/attach-network-interface.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example attaches the specified network interface to the specified instance.** ``` Add-EC2NetworkInterface -NetworkInterfaceId eni-12345678 -InstanceId i-1a2b3c4d -DeviceIndex 1 ``` **Output:** ``` eni-attach-1a2b3c4d ``` + For API details, see [AttachNetworkInterface](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example attaches the specified network interface to the specified instance.** ``` Add-EC2NetworkInterface -NetworkInterfaceId eni-12345678 -InstanceId i-1a2b3c4d -DeviceIndex 1 ``` **Output:** ``` eni-attach-1a2b3c4d ``` + For API details, see [AttachNetworkInterface](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AttachVolume` with a CLI The following code examples show how to use `AttachVolume`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) ------ #### [ CLI ] **AWS CLI** **To attach a volume to an instance** This example command attaches a volume (`vol-1234567890abcdef0`) to an instance (`i-01474ef662b89480`) as `/dev/sdf`. Command: ``` aws ec2 attach-volume --volume-id vol-1234567890abcdef0 --instance-id i-01474ef662b89480 --device /dev/sdf ``` Output: ``` { "AttachTime": "YYYY-MM-DDTHH:MM:SS.000Z", "InstanceId": "i-01474ef662b89480", "VolumeId": "vol-1234567890abcdef0", "State": "attaching", "Device": "/dev/sdf" } ``` + For API details, see [AttachVolume](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/attach-volume.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example attaches the specified volume to the specified instance and exposes it with the specified device name.** ``` Add-EC2Volume -VolumeId vol-12345678 -InstanceId i-1a2b3c4d -Device /dev/sdh ``` **Output:** ``` AttachTime : 12/22/2015 1:53:58 AM DeleteOnTermination : False Device : /dev/sdh InstanceId : i-1a2b3c4d State : attaching VolumeId : vol-12345678 ``` + For API details, see [AttachVolume](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example attaches the specified volume to the specified instance and exposes it with the specified device name.** ``` Add-EC2Volume -VolumeId vol-12345678 -InstanceId i-1a2b3c4d -Device /dev/sdh ``` **Output:** ``` AttachTime : 12/22/2015 1:53:58 AM DeleteOnTermination : False Device : /dev/sdh InstanceId : i-1a2b3c4d State : attaching VolumeId : vol-12345678 ``` + For API details, see [AttachVolume](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AttachVpnGateway` with a CLI The following code examples show how to use `AttachVpnGateway`. ------ #### [ CLI ] **AWS CLI** **To attach a virtual private gateway to your VPC** The following `attach-vpn-gateway` example attaches the specified virtual private gateway to the specified VPC. ``` aws ec2 attach-vpn-gateway \ --vpn-gateway-id vgw-9a4cacf3 \ --vpc-id vpc-a01106c2 ``` Output: ``` { "VpcAttachment": { "State": "attaching", "VpcId": "vpc-a01106c2" } } ``` + For API details, see [AttachVpnGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/attach-vpn-gateway.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example attaches the specified virtual private gateway to the specified VPC.** ``` Add-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d -VpcId vpc-12345678 ``` **Output:** ``` State VpcId ----- ----- attaching vpc-12345678 ``` + For API details, see [AttachVpnGateway](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example attaches the specified virtual private gateway to the specified VPC.** ``` Add-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d -VpcId vpc-12345678 ``` **Output:** ``` State VpcId ----- ----- attaching vpc-12345678 ``` + For API details, see [AttachVpnGateway](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AuthorizeSecurityGroupEgress` with a CLI The following code examples show how to use `AuthorizeSecurityGroupEgress`. ------ #### [ CLI ] **AWS CLI** **Example 1: To add a rule that allows outbound traffic to a specific address range** The following `authorize-security-group-egress` example adds a rule that grants access to the specified address ranges on TCP port 80. ``` aws ec2 authorize-security-group-egress \ --group-id sg-1234567890abcdef0 \ --ip-permissions 'IpProtocol=tcp,FromPort=80,ToPort=80,IpRanges=[{CidrIp=10.0.0.0/16}]' ``` Output: ``` { "Return": true, "SecurityGroupRules": [ { "SecurityGroupRuleId": "sgr-0b15794cdb17bf29c", "GroupId": "sg-1234567890abcdef0", "GroupOwnerId": "123456789012", "IsEgress": true, "IpProtocol": "tcp", "FromPort": 80, "ToPort": 80, "CidrIpv4": "10.0.0.0/16" } ] } ``` **Example 2: To add a rule that allows outbound traffic to a specific security group** The following `authorize-security-group-egress` example adds a rule that grants access to the specified security group on TCP port 80. ``` aws ec2 authorize-security-group-egress \ --group-id sg-1234567890abcdef0 \ --ip-permissions 'IpProtocol=tcp,FromPort=80,ToPort=80,UserIdGroupPairs=[{GroupId=sg-0aad1c26bbeec5c22}]' ``` Output: ``` { "Return": true, "SecurityGroupRules": [ { "SecurityGroupRuleId": "sgr-0b5dd815afcea9cc3", "GroupId": "sg-1234567890abcdef0", "GroupOwnerId": "123456789012", "IsEgress": true, "IpProtocol": "tcp", "FromPort": 80, "ToPort": 80, "ReferencedGroupInfo": { "GroupId": "sg-0aad1c26bbeec5c22", "UserId": "123456789012" } } ] } ``` For more information, see [Security groups](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-security-groups.html) in the *Amazon VPC User Guide*. + For API details, see [AuthorizeSecurityGroupEgress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/authorize-security-group-egress.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example defines an egress rule for the specified security group for EC2-VPC. The rule grants access to the specified IP address range on TCP port 80. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip = @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; IpRanges="203.0.113.0/24" } Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip ``` **Example 2: With PowerShell version 2, you must use New-Object to create the IpPermission object.** ``` $ip = New-Object Amazon.EC2.Model.IpPermission $ip.IpProtocol = "tcp" $ip.FromPort = 80 $ip.ToPort = 80 $ip.IpRanges.Add("203.0.113.0/24") Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip ``` **Example 3: This example grants access to the specified source security group on TCP port 80.** ``` $ug = New-Object Amazon.EC2.Model.UserIdGroupPair $ug.GroupId = "sg-1a2b3c4d" $ug.UserId = "123456789012" Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; UserIdGroupPairs=$ug } ) ``` + For API details, see [AuthorizeSecurityGroupEgress](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example defines an egress rule for the specified security group for EC2-VPC. The rule grants access to the specified IP address range on TCP port 80. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip = @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; IpRanges="203.0.113.0/24" } Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip ``` **Example 2: With PowerShell version 2, you must use New-Object to create the IpPermission object.** ``` $ip = New-Object Amazon.EC2.Model.IpPermission $ip.IpProtocol = "tcp" $ip.FromPort = 80 $ip.ToPort = 80 $ip.IpRanges.Add("203.0.113.0/24") Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip ``` **Example 3: This example grants access to the specified source security group on TCP port 80.** ``` $ug = New-Object Amazon.EC2.Model.UserIdGroupPair $ug.GroupId = "sg-1a2b3c4d" $ug.UserId = "123456789012" Grant-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; UserIdGroupPairs=$ug } ) ``` + For API details, see [AuthorizeSecurityGroupEgress](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `AuthorizeSecurityGroupIngress` with an AWS SDK or CLI The following code examples show how to use `AuthorizeSecurityGroupIngress`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Configure Amazon ECS Service Connect](example_ecs_ServiceConnect_085_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Create an Amazon ECS Linux task for the Fargate launch type](example_ecs_GettingStarted_086_section.md) + [Creating an Amazon ECS service for the EC2 launch type](example_ecs_GettingStarted_018_section.md) + [Creating an Amazon RDS DB instance](example_rds_GettingStarted_036_section.md) + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Get started with Marketplace Buyer](example_ec2_GettingStarted_030_section.md) + [Getting started with Amazon DocumentDB](example_docdb_GettingStarted_025_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) + [Getting started with Amazon ElastiCache](example_ec2_GettingStarted_065_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [Getting started with Elastic Load Balancing](example_elastic_load_balancing_v2_GettingStarted_058_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Authorize the local computer ingress to EC2 instances associated /// with the virtual private cloud (VPC) security group. /// /// The name of the security group. /// A Boolean value indicating the success of the action. public async Task AuthorizeSecurityGroupIngress(string groupName) { try { // Get the IP address for the local computer. var ipAddress = await GetIpAddress(); Console.WriteLine($"Your IP address is: {ipAddress}"); var ipRanges = new List { new IpRange { CidrIp = $"{ipAddress}/32" } }; var permission = new IpPermission { Ipv4Ranges = ipRanges, IpProtocol = "tcp", FromPort = 22, ToPort = 22 }; var permissions = new List { permission }; var response = await _amazonEC2.AuthorizeSecurityGroupIngressAsync( new AuthorizeSecurityGroupIngressRequest(groupName, permissions)); return response.HttpStatusCode == HttpStatusCode.OK; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidPermission.Duplicate") { _logger.LogError( $"The ingress rule already exists. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while authorizing ingress.: {ex.Message}"); throw; } } /// /// Authorize the local computer for ingress to /// the Amazon EC2 SecurityGroup. /// /// The IPv4 address of the computer running the scenario. private static async Task GetIpAddress() { var httpClient = new HttpClient(); var ipString = await httpClient.GetStringAsync("https://checkip.amazonaws.com"); // The IP address is returned with a new line // character on the end. Trim off the whitespace and // return the value to the caller. return ipString.Trim(); } ``` + For API details, see [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/AuthorizeSecurityGroupIngress) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_authorize_security_group_ingress # # This function authorizes an ingress rule for an Amazon Elastic Compute Cloud (Amazon EC2) security group. # # Parameters: # -g security_group_id - The ID of the security group. # -i ip_address - The IP address or CIDR block to authorize. # -p protocol - The protocol to authorize (e.g., tcp, udp, icmp). # -f from_port - The start of the port range to authorize. # -t to_port - The end of the port range to authorize. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_authorize_security_group_ingress() { local security_group_id ip_address protocol from_port to_port response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_authorize_security_group_ingress" echo "Authorizes an ingress rule for an Amazon Elastic Compute Cloud (Amazon EC2) security group." echo " -g security_group_id - The ID of the security group." echo " -i ip_address - The IP address or CIDR block to authorize." echo " -p protocol - The protocol to authorize (e.g., tcp, udp, icmp)." echo " -f from_port - The start of the port range to authorize." echo " -t to_port - The end of the port range to authorize." echo "" } # Retrieve the calling parameters. while getopts "g:i:p:f:t:h" option; do case "${option}" in g) security_group_id="${OPTARG}" ;; i) ip_address="${OPTARG}" ;; p) protocol="${OPTARG}" ;; f) from_port="${OPTARG}" ;; t) to_port="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$security_group_id" ]]; then errecho "ERROR: You must provide a security group ID with the -g parameter." usage return 1 fi if [[ -z "$ip_address" ]]; then errecho "ERROR: You must provide an IP address or CIDR block with the -i parameter." usage return 1 fi if [[ -z "$protocol" ]]; then errecho "ERROR: You must provide a protocol with the -p parameter." usage return 1 fi if [[ -z "$from_port" ]]; then errecho "ERROR: You must provide a start port with the -f parameter." usage return 1 fi if [[ -z "$to_port" ]]; then errecho "ERROR: You must provide an end port with the -t parameter." usage return 1 fi response=$(aws ec2 authorize-security-group-ingress \ --group-id "$security_group_id" \ --cidr "${ip_address}/32" \ --protocol "$protocol" \ --port "$from_port-$to_port" \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports authorize-security-group-ingress operation failed.$response" return 1 } return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/AuthorizeSecurityGroupIngress) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Authorize ingress to an Amazon Elastic Compute Cloud (Amazon EC2) group. /*! \param groupID: The EC2 group ID. \param clientConfiguration: The ClientConfiguration object. \return bool: True if the operation was successful, false otherwise. */ bool AwsDoc::EC2::authorizeSecurityGroupIngress(const Aws::String &groupID, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::AuthorizeSecurityGroupIngressRequest authorizeSecurityGroupIngressRequest; authorizeSecurityGroupIngressRequest.SetGroupId(groupID); buildSampleIngressRule(authorizeSecurityGroupIngressRequest); Aws::EC2::Model::AuthorizeSecurityGroupIngressOutcome authorizeSecurityGroupIngressOutcome = ec2Client.AuthorizeSecurityGroupIngress(authorizeSecurityGroupIngressRequest); if (authorizeSecurityGroupIngressOutcome.IsSuccess()) { std::cout << "Successfully authorized security group ingress." << std::endl; } else { std::cerr << "Error authorizing security group ingress: " << authorizeSecurityGroupIngressOutcome.GetError().GetMessage() << std::endl; } return authorizeSecurityGroupIngressOutcome.IsSuccess(); } ``` Utility function to build an ingress rule. ``` //! Build a sample ingress rule. /*! \param authorize_request: An 'AuthorizeSecurityGroupIngressRequest' instance. \return void: */ void buildSampleIngressRule( Aws::EC2::Model::AuthorizeSecurityGroupIngressRequest &authorize_request) { Aws::String ingressIPRange = "203.0.113.0/24"; // Configure this for your allowed IP range. Aws::EC2::Model::IpRange ip_range; ip_range.SetCidrIp(ingressIPRange); Aws::EC2::Model::IpPermission permission1; permission1.SetIpProtocol("tcp"); permission1.SetToPort(80); permission1.SetFromPort(80); permission1.AddIpRanges(ip_range); authorize_request.AddIpPermissions(permission1); Aws::EC2::Model::IpPermission permission2; permission2.SetIpProtocol("tcp"); permission2.SetToPort(22); permission2.SetFromPort(22); permission2.AddIpRanges(ip_range); authorize_request.AddIpPermissions(permission2); } ``` + For API details, see [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/AuthorizeSecurityGroupIngress) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To add a rule that allows inbound SSH traffic** The following `authorize-security-group-ingress` example adds a rule that allows inbound traffic on TCP port 22 (SSH). ``` aws ec2 authorize-security-group-ingress \ --group-id sg-1234567890abcdef0 \ --protocol tcp \ --port 22 \ --cidr 203.0.113.0/24 ``` Output: ``` { "Return": true, "SecurityGroupRules": [ { "SecurityGroupRuleId": "sgr-01afa97ef3e1bedfc", "GroupId": "sg-1234567890abcdef0", "GroupOwnerId": "123456789012", "IsEgress": false, "IpProtocol": "tcp", "FromPort": 22, "ToPort": 22, "CidrIpv4": "203.0.113.0/24" } ] } ``` **Example 2: To add a rule that allows inbound HTTP traffic from another security group** The following `authorize-security-group-ingress` example adds a rule that allows inbound access on TCP port 80 from the source security group `sg-1a2b3c4d`. The source group must be in the same VPC or in a peer VPC (requires a VPC peering connection). Incoming traffic is allowed based on the private IP addresses of instances that are associated with the source security group (not the public IP address or Elastic IP address). ``` aws ec2 authorize-security-group-ingress \ --group-id sg-1234567890abcdef0 \ --protocol tcp \ --port 80 \ --source-group sg-1a2b3c4d ``` Output: ``` { "Return": true, "SecurityGroupRules": [ { "SecurityGroupRuleId": "sgr-01f4be99110f638a7", "GroupId": "sg-1234567890abcdef0", "GroupOwnerId": "123456789012", "IsEgress": false, "IpProtocol": "tcp", "FromPort": 80, "ToPort": 80, "ReferencedGroupInfo": { "GroupId": "sg-1a2b3c4d", "UserId": "123456789012" } } ] } ``` **Example 3: To add multiple rules in the same call** The following `authorize-security-group-ingress` example uses the `ip-permissions` parameter to add two inbound rules, one that enables inbound access on TCP port 3389 (RDP) and the other that enables ping/ICMP. ``` aws ec2 authorize-security-group-ingress \ --group-id sg-1234567890abcdef0 \ --ip-permissions 'IpProtocol=tcp,FromPort=3389,ToPort=3389,IpRanges=[{CidrIp=172.31.0.0/16}]' 'IpProtocol=icmp,FromPort=-1,ToPort=-1,IpRanges=[{CidrIp=172.31.0.0/16}]' ``` Output: ``` { "Return": true, "SecurityGroupRules": [ { "SecurityGroupRuleId": "sgr-00e06e5d3690f29f3", "GroupId": "sg-1234567890abcdef0", "GroupOwnerId": "123456789012", "IsEgress": false, "IpProtocol": "tcp", "FromPort": 3389, "ToPort": 3389, "CidrIpv4": "172.31.0.0/16" }, { "SecurityGroupRuleId": "sgr-0a133dd4493944b87", "GroupId": "sg-1234567890abcdef0", "GroupOwnerId": "123456789012", "IsEgress": false, "IpProtocol": "tcp", "FromPort": -1, "ToPort": -1, "CidrIpv4": "172.31.0.0/16" } ] } ``` **Example 4: To add a rule for ICMP traffic** The following `authorize-security-group-ingress` example uses the `ip-permissions` parameter to add an inbound rule that allows the ICMP message `Destination Unreachable: Fragmentation Needed and Don't Fragment was Set` (Type 3, Code 4) from anywhere. ``` aws ec2 authorize-security-group-ingress \ --group-id sg-1234567890abcdef0 \ --ip-permissions 'IpProtocol=icmp,FromPort=3,ToPort=4,IpRanges=[{CidrIp=0.0.0.0/0}]' ``` Output: ``` { "Return": true, "SecurityGroupRules": [ { "SecurityGroupRuleId": "sgr-0de3811019069b787", "GroupId": "sg-1234567890abcdef0", "GroupOwnerId": "123456789012", "IsEgress": false, "IpProtocol": "icmp", "FromPort": 3, "ToPort": 4, "CidrIpv4": "0.0.0.0/0" } ] } ``` **Example 5: To add a rule for IPv6 traffic** The following `authorize-security-group-ingress` example uses the `ip-permissions` parameter to add an inbound rule that allows SSH access (port 22) from the IPv6 range `2001:db8:1234:1a00::/64`. ``` aws ec2 authorize-security-group-ingress \ --group-id sg-1234567890abcdef0 \ --ip-permissions 'IpProtocol=tcp,FromPort=22,ToPort=22,Ipv6Ranges=[{CidrIpv6=2001:db8:1234:1a00::/64}]' ``` Output: ``` { "Return": true, "SecurityGroupRules": [ { "SecurityGroupRuleId": "sgr-0455bc68b60805563", "GroupId": "sg-1234567890abcdef0", "GroupOwnerId": "123456789012", "IsEgress": false, "IpProtocol": "tcp", "FromPort": 22, "ToPort": 22, "CidrIpv6": "2001:db8:1234:1a00::/64" } ] } ``` **Example 6: To add a rule for ICMPv6 traffic** The following `authorize-security-group-ingress` example uses the `ip-permissions` parameter to add an inbound rule that allows ICMPv6 traffic from anywhere. ``` aws ec2 authorize-security-group-ingress \ --group-id sg-1234567890abcdef0 \ --ip-permissions 'IpProtocol=icmpv6,Ipv6Ranges=[{CidrIpv6=::/0}]' ``` Output: ``` { "Return": true, "SecurityGroupRules": [ { "SecurityGroupRuleId": "sgr-04b612d9363ab6327", "GroupId": "sg-1234567890abcdef0", "GroupOwnerId": "123456789012", "IsEgress": false, "IpProtocol": "icmpv6", "FromPort": -1, "ToPort": -1, "CidrIpv6": "::/0" } ] } ``` **Example 7: Add a rule with a description** The following `authorize-security-group-ingress` example uses the `ip-permissions` parameter to add an inbound rule that allows RDP traffic from the specified IPv4 address range. The rule includes a description to help you identify it later. ``` aws ec2 authorize-security-group-ingress \ --group-id sg-1234567890abcdef0 \ --ip-permissions 'IpProtocol=tcp,FromPort=3389,ToPort=3389,IpRanges=[{CidrIp=203.0.113.0/24,Description='RDP access from NY office'}]' ``` Output: ``` { "Return": true, "SecurityGroupRules": [ { "SecurityGroupRuleId": "sgr-0397bbcc01e974db3", "GroupId": "sg-1234567890abcdef0", "GroupOwnerId": "123456789012", "IsEgress": false, "IpProtocol": "tcp", "FromPort": 3389, "ToPort": 3389, "CidrIpv4": "203.0.113.0/24", "Description": "RDP access from NY office" } ] } ``` **Example 8: To add an inbound rule that uses a prefix list** The following `authorize-security-group-ingress` example uses the `ip-permissions` parameter to add an inbound rule that allows all traffic for the CIDR ranges in the specified prefix list. ``` aws ec2 authorize-security-group-ingress \ --group-id sg-04a351bfe432d4e71 \ --ip-permissions 'IpProtocol=all,PrefixListIds=[{PrefixListId=pl-002dc3ec097de1514}]' ``` Output: ``` { "Return": true, "SecurityGroupRules": [ { "SecurityGroupRuleId": "sgr-09c74b32f677c6c7c", "GroupId": "sg-1234567890abcdef0", "GroupOwnerId": "123456789012", "IsEgress": false, "IpProtocol": "-1", "FromPort": -1, "ToPort": -1, "PrefixListId": "pl-0721453c7ac4ec009" } ] } ``` For more information, see [Security groups](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-security-groups.html) in the *Amazon VPC User Guide*. + For API details, see [AuthorizeSecurityGroupIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/authorize-security-group-ingress.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Creates a new security group asynchronously with the specified group name, description, and VPC ID. It also * authorizes inbound traffic on ports 80 and 22 from the specified IP address. * * @param groupName the name of the security group to create * @param groupDesc the description of the security group * @param vpcId the ID of the VPC in which to create the security group * @param myIpAddress the IP address from which to allow inbound traffic (e.g., "192.168.1.1/0" to allow traffic from * any IP address in the 192.168.1.0/24 subnet) * @return a CompletableFuture that, when completed, returns the ID of the created security group * @throws RuntimeException if there was a failure creating the security group or authorizing the inbound traffic */ public CompletableFuture createSecurityGroupAsync(String groupName, String groupDesc, String vpcId, String myIpAddress) { CreateSecurityGroupRequest createRequest = CreateSecurityGroupRequest.builder() .groupName(groupName) .description(groupDesc) .vpcId(vpcId) .build(); return getAsyncClient().createSecurityGroup(createRequest) .thenCompose(createResponse -> { String groupId = createResponse.groupId(); IpRange ipRange = IpRange.builder() .cidrIp(myIpAddress + "/32") .build(); IpPermission ipPerm = IpPermission.builder() .ipProtocol("tcp") .toPort(80) .fromPort(80) .ipRanges(ipRange) .build(); IpPermission ipPerm2 = IpPermission.builder() .ipProtocol("tcp") .toPort(22) .fromPort(22) .ipRanges(ipRange) .build(); AuthorizeSecurityGroupIngressRequest authRequest = AuthorizeSecurityGroupIngressRequest.builder() .groupName(groupName) .ipPermissions(ipPerm, ipPerm2) .build(); return getAsyncClient().authorizeSecurityGroupIngress(authRequest) .thenApply(authResponse -> groupId); }) .whenComplete((result, exception) -> { if (exception != null) { if (exception instanceof CompletionException && exception.getCause() instanceof Ec2Exception) { throw (Ec2Exception) exception.getCause(); } else { throw new RuntimeException("Failed to create security group: " + exception.getMessage(), exception); } } }); } ``` + For API details, see [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/AuthorizeSecurityGroupIngress) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { AuthorizeSecurityGroupIngressCommand, EC2Client, } from "@aws-sdk/client-ec2"; /** * Adds the specified inbound (ingress) rules to a security group. * @param {{ groupId: string, ipAddress: string }} options */ export const main = async ({ groupId, ipAddress }) => { const client = new EC2Client({}); const command = new AuthorizeSecurityGroupIngressCommand({ // Use a group ID from the AWS console or // the DescribeSecurityGroupsCommand. GroupId: groupId, IpPermissions: [ { IpProtocol: "tcp", FromPort: 22, ToPort: 22, // The IP address to authorize. // For more information on this notation, see // https://en.wikipedia.org/wiki/Classless_Inter-Domain_Routing#CIDR_notation IpRanges: [{ CidrIp: `${ipAddress}/32` }], }, ], }); try { const { SecurityGroupRules } = await client.send(command); console.log(JSON.stringify(SecurityGroupRules, null, 2)); } catch (caught) { if (caught instanceof Error && caught.name === "InvalidGroupId.Malformed") { console.warn(`${caught.message}. Please provide a valid GroupId.`); } else { throw caught; } } }; ``` + For API details, see [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/AuthorizeSecurityGroupIngressCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun createEC2SecurityGroupSc( groupNameVal: String?, groupDescVal: String?, vpcIdVal: String?, myIpAddress: String?, ): String? { val request = CreateSecurityGroupRequest { groupName = groupNameVal description = groupDescVal vpcId = vpcIdVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val resp = ec2.createSecurityGroup(request) val ipRange = IpRange { cidrIp = "$myIpAddress/0" } val ipPerm = IpPermission { ipProtocol = "tcp" toPort = 80 fromPort = 80 ipRanges = listOf(ipRange) } val ipPerm2 = IpPermission { ipProtocol = "tcp" toPort = 22 fromPort = 22 ipRanges = listOf(ipRange) } val authRequest = AuthorizeSecurityGroupIngressRequest { groupName = groupNameVal ipPermissions = listOf(ipPerm, ipPerm2) } ec2.authorizeSecurityGroupIngress(authRequest) println("Successfully added ingress policy to Security Group $groupNameVal") return resp.groupId } } ``` + For API details, see [AuthorizeSecurityGroupIngress](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example defines ingress rules for a security group for EC2-VPC. These rules grant access to a specific IP address for SSH (port 22) and RDC (port 3389). Note that you must identify security groups for EC2-VPC using the security group ID not the security group name. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip1 = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.25/32" } $ip2 = @{ IpProtocol="tcp"; FromPort="3389"; ToPort="3389"; IpRanges="203.0.113.25/32" } Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( $ip1, $ip2 ) ``` **Example 2: With PowerShell version 2, you must use New-Object to create the IpPermission objects.** ``` $ip1 = New-Object Amazon.EC2.Model.IpPermission $ip1.IpProtocol = "tcp" $ip1.FromPort = 22 $ip1.ToPort = 22 $ip1.IpRanges.Add("203.0.113.25/32") $ip2 = new-object Amazon.EC2.Model.IpPermission $ip2.IpProtocol = "tcp" $ip2.FromPort = 3389 $ip2.ToPort = 3389 $ip2.IpRanges.Add("203.0.113.25/32") Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( $ip1, $ip2 ) ``` **Example 3: This example defines ingress rules for a security group for EC2-Classic. These rules grant access to a specific IP address for SSH (port 22) and RDC (port 3389). The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip1 = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.25/32" } $ip2 = @{ IpProtocol="tcp"; FromPort="3389"; ToPort="3389"; IpRanges="203.0.113.25/32" } Grant-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission @( $ip1, $ip2 ) ``` **Example 4: With PowerShell version 2, you must use New-Object to create the IpPermission objects.** ``` $ip1 = New-Object Amazon.EC2.Model.IpPermission $ip1.IpProtocol = "tcp" $ip1.FromPort = 22 $ip1.ToPort = 22 $ip1.IpRanges.Add("203.0.113.25/32") $ip2 = new-object Amazon.EC2.Model.IpPermission $ip2.IpProtocol = "tcp" $ip2.FromPort = 3389 $ip2.ToPort = 3389 $ip2.IpRanges.Add("203.0.113.25/32") Grant-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission @( $ip1, $ip2 ) ``` **Example 5: This example grants TCP port 8081 access from the specified source security group (sg-1a2b3c4d) to the specified security group (sg-12345678).** ``` $ug = New-Object Amazon.EC2.Model.UserIdGroupPair $ug.GroupId = "sg-1a2b3c4d" $ug.UserId = "123456789012" Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="8081"; ToPort="8081"; UserIdGroupPairs=$ug } ) ``` **Example 6: This example adds the CIDR 5.5.5.5/32 to the Ingress rules of security Group sg-1234abcd for TCP port 22 traffic with a description.** ``` $IpRange = New-Object -TypeName Amazon.EC2.Model.IpRange $IpRange.CidrIp = "5.5.5.5/32" $IpRange.Description = "SSH from Office" $IpPermission = New-Object Amazon.EC2.Model.IpPermission $IpPermission.IpProtocol = "tcp" $IpPermission.ToPort = 22 $IpPermission.FromPort = 22 $IpPermission.Ipv4Ranges = $IpRange Grant-EC2SecurityGroupIngress -GroupId sg-1234abcd -IpPermission $IpPermission ``` + For API details, see [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example defines ingress rules for a security group for EC2-VPC. These rules grant access to a specific IP address for SSH (port 22) and RDC (port 3389). Note that you must identify security groups for EC2-VPC using the security group ID not the security group name. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip1 = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.25/32" } $ip2 = @{ IpProtocol="tcp"; FromPort="3389"; ToPort="3389"; IpRanges="203.0.113.25/32" } Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( $ip1, $ip2 ) ``` **Example 2: With PowerShell version 2, you must use New-Object to create the IpPermission objects.** ``` $ip1 = New-Object Amazon.EC2.Model.IpPermission $ip1.IpProtocol = "tcp" $ip1.FromPort = 22 $ip1.ToPort = 22 $ip1.IpRanges.Add("203.0.113.25/32") $ip2 = new-object Amazon.EC2.Model.IpPermission $ip2.IpProtocol = "tcp" $ip2.FromPort = 3389 $ip2.ToPort = 3389 $ip2.IpRanges.Add("203.0.113.25/32") Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( $ip1, $ip2 ) ``` **Example 3: This example defines ingress rules for a security group for EC2-Classic. These rules grant access to a specific IP address for SSH (port 22) and RDC (port 3389). The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip1 = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.25/32" } $ip2 = @{ IpProtocol="tcp"; FromPort="3389"; ToPort="3389"; IpRanges="203.0.113.25/32" } Grant-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission @( $ip1, $ip2 ) ``` **Example 4: With PowerShell version 2, you must use New-Object to create the IpPermission objects.** ``` $ip1 = New-Object Amazon.EC2.Model.IpPermission $ip1.IpProtocol = "tcp" $ip1.FromPort = 22 $ip1.ToPort = 22 $ip1.IpRanges.Add("203.0.113.25/32") $ip2 = new-object Amazon.EC2.Model.IpPermission $ip2.IpProtocol = "tcp" $ip2.FromPort = 3389 $ip2.ToPort = 3389 $ip2.IpRanges.Add("203.0.113.25/32") Grant-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission @( $ip1, $ip2 ) ``` **Example 5: This example grants TCP port 8081 access from the specified source security group (sg-1a2b3c4d) to the specified security group (sg-12345678).** ``` $ug = New-Object Amazon.EC2.Model.UserIdGroupPair $ug.GroupId = "sg-1a2b3c4d" $ug.UserId = "123456789012" Grant-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="8081"; ToPort="8081"; UserIdGroupPairs=$ug } ) ``` **Example 6: This example adds the CIDR 5.5.5.5/32 to the Ingress rules of security Group sg-1234abcd for TCP port 22 traffic with a description.** ``` $IpRange = New-Object -TypeName Amazon.EC2.Model.IpRange $IpRange.CidrIp = "5.5.5.5/32" $IpRange.Description = "SSH from Office" $IpPermission = New-Object Amazon.EC2.Model.IpPermission $IpPermission.IpProtocol = "tcp" $IpPermission.ToPort = 22 $IpPermission.FromPort = 22 $IpPermission.Ipv4Ranges = $IpRange Grant-EC2SecurityGroupIngress -GroupId sg-1234abcd -IpPermission $IpPermission ``` + For API details, see [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class SecurityGroupWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) security group actions.""" def __init__(self, ec2_client: boto3.client, security_group: Optional[str] = None): """ Initializes the SecurityGroupWrapper with an EC2 client and an optional security group ID. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param security_group: The ID of a security group to manage. This is a high-level identifier that represents the security group. """ self.ec2_client = ec2_client self.security_group = security_group @classmethod def from_client(cls) -> "SecurityGroupWrapper": """ Creates a SecurityGroupWrapper instance with a default EC2 client. :return: An instance of SecurityGroupWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def authorize_ingress(self, ssh_ingress_ip: str) -> Optional[Dict[str, Any]]: """ Adds a rule to the security group to allow access to SSH. :param ssh_ingress_ip: The IP address that is granted inbound access to connect to port 22 over TCP, used for SSH. :return: The response to the authorization request. The 'Return' field of the response indicates whether the request succeeded or failed, or None if no security group is set. :raise Handles AWS SDK service-level ClientError, with special handling for ResourceAlreadyExists """ if self.security_group is None: logger.info("No security group to update.") return None try: ip_permissions = [ { # SSH ingress open to only the specified IP address. "IpProtocol": "tcp", "FromPort": 22, "ToPort": 22, "IpRanges": [{"CidrIp": f"{ssh_ingress_ip}/32"}], } ] response = self.ec2_client.authorize_security_group_ingress( GroupId=self.security_group, IpPermissions=ip_permissions ) except ClientError as err: if err.response["Error"]["Code"] == "InvalidPermission.Duplicate": logger.error( f"The SSH ingress rule for IP {ssh_ingress_ip} already exists" f"in security group '{self.security_group}'." ) raise else: return response ``` + For API details, see [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/AuthorizeSecurityGroupIngress) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` /// Add an ingress rule to a security group explicitly allowing IPv4 address /// as {ip}/32 over TCP port 22. pub async fn authorize_security_group_ssh_ingress( &self, group_id: &str, ingress_ips: Vec, ) -> Result<(), EC2Error> { tracing::info!("Authorizing ingress for security group {group_id}"); self.client .authorize_security_group_ingress() .group_id(group_id) .set_ip_permissions(Some( ingress_ips .into_iter() .map(|ip| { IpPermission::builder() .ip_protocol("tcp") .from_port(22) .to_port(22) .ip_ranges(IpRange::builder().cidr_ip(format!("{ip}/32")).build()) .build() }) .collect(), )) .send() .await?; Ok(()) } ``` + For API details, see [AuthorizeSecurityGroupIngress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.authorize_security_group_ingress) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` " Create IP permissions for SSH access (port 22) " iv_cidr_ip = '192.0.2.0/24' DATA lt_ip_permissions TYPE /aws1/cl_ec2ippermission=>tt_ippermissionlist. DATA(lo_ip_permission) = NEW /aws1/cl_ec2ippermission( iv_ipprotocol = 'tcp' iv_fromport = 22 iv_toport = 22 it_ipranges = VALUE /aws1/cl_ec2iprange=>tt_iprangelist( ( NEW /aws1/cl_ec2iprange( iv_cidrip = iv_cidr_ip ) ) ) ). APPEND lo_ip_permission TO lt_ip_permissions. TRY. oo_result = lo_ec2->authsecuritygroupingress( " oo_result is returned for testing purposes. " iv_groupid = iv_group_id it_ippermissions = lt_ip_permissions ). MESSAGE 'Authorized ingress rule for security group.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [AuthorizeSecurityGroupIngress](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Authorize ingress of connections for the security group. /// /// - Parameters: /// - groupId: The group ID of the security group to authorize access for. /// - ipAddress: The IP address of the device to grant access to. /// /// - Returns: `true` if access is successfully granted; otherwise `false`. func authorizeSecurityGroupIngress(groupId: String, ipAddress: String) async -> Bool { let ipRange = EC2ClientTypes.IpRange(cidrIp: "\(ipAddress)/0") let httpPermission = EC2ClientTypes.IpPermission( fromPort: 80, ipProtocol: "tcp", ipRanges: [ipRange], toPort: 80 ) let sshPermission = EC2ClientTypes.IpPermission( fromPort: 22, ipProtocol: "tcp", ipRanges: [ipRange], toPort: 22 ) do { _ = try await ec2Client.authorizeSecurityGroupIngress( input: AuthorizeSecurityGroupIngressInput( groupId: groupId, ipPermissions: [httpPermission, sshPermission] ) ) return true } catch { print("*** Error authorizing ingress for the security group: \(error.localizedDescription)") return false } } ``` + For API details, see [AuthorizeSecurityGroupIngress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/authorizesecuritygroupingress(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CancelCapacityReservation` with a CLI The following code examples show how to use `CancelCapacityReservation`. ------ #### [ CLI ] **AWS CLI** **To cancel a capacity reservation** The following `cancel-capacity-reservation` example cancels the specified capacity reservation. ``` aws ec2 cancel-capacity-reservation \ --capacity-reservation-id cr-1234abcd56EXAMPLE ``` Output: ``` { "Return": true } ``` For more information, see [Cancel a Capacity Reservation](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-release.html) in the *Amazon EC2 User Guide*. + For API details, see [CancelCapacityReservation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-capacity-reservation.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example cancels the capacity reservation cr-0c1f2345db6f7cdba** ``` Remove-EC2CapacityReservation -CapacityReservationId cr-0c1f2345db6f7cdba ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing the operation "Remove-EC2CapacityReservation (CancelCapacityReservation)" on target "cr-0c1f2345db6f7cdba". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): y True ``` + For API details, see [CancelCapacityReservation](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example cancels the capacity reservation cr-0c1f2345db6f7cdba** ``` Remove-EC2CapacityReservation -CapacityReservationId cr-0c1f2345db6f7cdba ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing the operation "Remove-EC2CapacityReservation (CancelCapacityReservation)" on target "cr-0c1f2345db6f7cdba". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): y True ``` + For API details, see [CancelCapacityReservation](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CancelImportTask` with a CLI The following code examples show how to use `CancelImportTask`. ------ #### [ CLI ] **AWS CLI** **To cancel an import task** The following `cancel-import-task` example cancels the specified import image task. ``` aws ec2 cancel-import-task \ --import-task-id import-ami-1234567890abcdef0 ``` Output: ``` { "ImportTaskId": "import-ami-1234567890abcdef0", "PreviousState": "active", "State": "deleting" } ``` + For API details, see [CancelImportTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-import-task.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example cancels the specified import task (either snapshot or image import). If required, a reason can be providing using the `-CancelReason` parameter.** ``` Stop-EC2ImportTask -ImportTaskId import-ami-abcdefgh ``` + For API details, see [CancelImportTask](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example cancels the specified import task (either snapshot or image import). If required, a reason can be providing using the `-CancelReason` parameter.** ``` Stop-EC2ImportTask -ImportTaskId import-ami-abcdefgh ``` + For API details, see [CancelImportTask](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CancelSpotFleetRequests` with a CLI The following code examples show how to use `CancelSpotFleetRequests`. ------ #### [ CLI ] **AWS CLI** **Example 1: To cancel a Spot fleet request and terminate the associated instances** The following `cancel-spot-fleet-requests` example cancels a Spot Fleet request and terminates the associated On-Demand Instances and Spot Instances. ``` aws ec2 cancel-spot-fleet-requests \ --spot-fleet-request-ids sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE \ --terminate-instances ``` Output: ``` { "SuccessfulFleetRequests": [ { "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE", "CurrentSpotFleetRequestState": "cancelled_terminating", "PreviousSpotFleetRequestState": "active" } ], "UnsuccessfulFleetRequests": [] } ``` **Example 2: To cancel a Spot fleet request without terminating the associated instances** The following `cancel-spot-fleet-requests` example cancels a Spot Fleet request without terminating the associated On-Demand Instances and Spot Instances. ``` aws ec2 cancel-spot-fleet-requests \ --spot-fleet-request-ids sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE \ --no-terminate-instances ``` Output: ``` { "SuccessfulFleetRequests": [ { "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE", "CurrentSpotFleetRequestState": "cancelled_running", "PreviousSpotFleetRequestState": "active" } ], "UnsuccessfulFleetRequests": [] } ``` For more information, see [Cancel a Spot Fleet request](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/cancel-spot-fleet.html) in the *Amazon EC2 User Guide*. + For API details, see [CancelSpotFleetRequests](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-spot-fleet-requests.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example cancels the specified Spot fleet request and terminates the associated Spot instances.** ``` Stop-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TerminateInstance $true ``` **Example 2: This example cancels the specified Spot fleet request without terminating the associated Spot instances.** ``` Stop-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TerminateInstance $false ``` + For API details, see [CancelSpotFleetRequests](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example cancels the specified Spot fleet request and terminates the associated Spot instances.** ``` Stop-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TerminateInstance $true ``` **Example 2: This example cancels the specified Spot fleet request without terminating the associated Spot instances.** ``` Stop-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TerminateInstance $false ``` + For API details, see [CancelSpotFleetRequests](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CancelSpotInstanceRequests` with a CLI The following code examples show how to use `CancelSpotInstanceRequests`. ------ #### [ CLI ] **AWS CLI** **To cancel Spot Instance requests** This example command cancels a Spot Instance request. Command: ``` aws ec2 cancel-spot-instance-requests --spot-instance-request-ids sir-08b93456 ``` Output: ``` { "CancelledSpotInstanceRequests": [ { "State": "cancelled", "SpotInstanceRequestId": "sir-08b93456" } ] } ``` + For API details, see [CancelSpotInstanceRequests](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/cancel-spot-instance-requests.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example cancels the specified Spot instance request.** ``` Stop-EC2SpotInstanceRequest -SpotInstanceRequestId sir-12345678 ``` **Output:** ``` SpotInstanceRequestId State --------------------- ----- sir-12345678 cancelled ``` + For API details, see [CancelSpotInstanceRequests](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example cancels the specified Spot instance request.** ``` Stop-EC2SpotInstanceRequest -SpotInstanceRequestId sir-12345678 ``` **Output:** ``` SpotInstanceRequestId State --------------------- ----- sir-12345678 cancelled ``` + For API details, see [CancelSpotInstanceRequests](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ConfirmProductInstance` with a CLI The following code examples show how to use `ConfirmProductInstance`. ------ #### [ CLI ] **AWS CLI** **To confirm the product instance** This example determines whether the specified product code is associated with the specified instance. Command: ``` aws ec2 confirm-product-instance --product-code 774F4FF8 --instance-id i-1234567890abcdef0 ``` Output: ``` { "OwnerId": "123456789012" } ``` + For API details, see [ConfirmProductInstance](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/confirm-product-instance.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example determines whether the specified product code is associated with the specified instance.** ``` Confirm-EC2ProductInstance -ProductCode 774F4FF8 -InstanceId i-12345678 ``` + For API details, see [ConfirmProductInstance](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example determines whether the specified product code is associated with the specified instance.** ``` Confirm-EC2ProductInstance -ProductCode 774F4FF8 -InstanceId i-12345678 ``` + For API details, see [ConfirmProductInstance](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CopyImage` with a CLI The following code examples show how to use `CopyImage`. ------ #### [ CLI ] **AWS CLI** **Example 1: To copy an AMI to another Region** The following `copy-image` example command copies the specified AMI from the `us-west-2` Region to the `us-east-1` Region and adds a short description. ``` aws ec2 copy-image \ --region us-east-1 \ --name ami-name \ --source-region us-west-2 \ --source-image-id ami-066877671789bd71b \ --description "This is my copied image." ``` Output: ``` { "ImageId": "ami-0123456789abcdefg" } ``` For more information, see [Copy an AMI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/CopyingAMIs.html) in the *Amazon EC2 User Guide*. **Example 2: To copy an AMI to another Region and encrypt the backing snapshot** The following `copy-image` command copies the specified AMI from the `us-west-2` Region to the current Region and encrypts the backing snapshot using the specified KMS key. ``` aws ec2 copy-image \ --source-region us-west-2 \ --name ami-name \ --source-image-id ami-066877671789bd71b \ --encrypted \ --kms-key-id alias/my-kms-key ``` Output: ``` { "ImageId": "ami-0123456789abcdefg" } ``` For more information, see [Copy an AMI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/CopyingAMIs.html) in the *Amazon EC2 User Guide*. **Example 3: To include your user-defined AMI tags when copying an AMI** The following `copy-image` command uses the `--copy-image-tags` parameter to copy your user-defined AMI tags when copying the AMI. ``` aws ec2 copy-image \ --region us-east-1 \ --name ami-name \ --source-region us-west-2 \ --source-image-id ami-066877671789bd71b \ --description "This is my copied image." --copy-image-tags ``` Output: ``` { "ImageId": "ami-0123456789abcdefg" } ``` For more information, see [Copy an AMI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/CopyingAMIs.html) in the *Amazon EC2 User Guide*. + For API details, see [CopyImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/copy-image.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example copies the specified AMI in the 'EU (Ireland)' region to the 'US West (Oregon)' region. If -Region is not specified, the current default region is used as the destination region.** ``` Copy-EC2Image -SourceRegion eu-west-1 -SourceImageId ami-12345678 -Region us-west-2 -Name "Copy of ami-12345678" ``` **Output:** ``` ami-87654321 ``` + For API details, see [CopyImage](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example copies the specified AMI in the 'EU (Ireland)' region to the 'US West (Oregon)' region. If -Region is not specified, the current default region is used as the destination region.** ``` Copy-EC2Image -SourceRegion eu-west-1 -SourceImageId ami-12345678 -Region us-west-2 -Name "Copy of ami-12345678" ``` **Output:** ``` ami-87654321 ``` + For API details, see [CopyImage](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CopySnapshot` with a CLI The following code examples show how to use `CopySnapshot`. ------ #### [ CLI ] **AWS CLI** **Example 1: To copy a snapshot to another Region** The following `copy-snapshot` example command copies the specified snapshot from the `us-west-2` Region to the `us-east-1` Region and adds a short description. ``` aws ec2 copy-snapshot \ --region us-east-1 \ --source-region us-west-2 \ --source-snapshot-id snap-066877671789bd71b \ --description 'This is my copied snapshot.' ``` Output: ``` { "SnapshotId": "snap-066877671789bd71b" } ``` **Example 2: To copy an unencrypted snapshot and encrypt the new snapshot** The following `copy-snapshot` command copies the specified unencrypted snapshot from the `us-west-2` Region to the current Region and encrypts the new snapshot using the specified KMS key. ``` aws ec2 copy-snapshot \ --source-region us-west-2 \ --source-snapshot-id snap-066877671789bd71b \ --encrypted \ --kms-key-id alias/my-kms-key ``` Output: ``` { "SnapshotId": "snap-066877671789bd71b" } ``` For more information, see [Copy an Amazon EBS snapshot](https://docs.aws.amazon.com/ebs/latest/userguide/ebs-copy-snapshot.html) in the *Amazon EBS User Guide*. + For API details, see [CopySnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/copy-snapshot.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example copies the specified snapshot from the EU (Ireland) region to the US West (Oregon) region.** ``` Copy-EC2Snapshot -SourceRegion eu-west-1 -SourceSnapshotId snap-12345678 -Region us-west-2 ``` **Example 2: If you set a default region and omit the Region parameter, the default destination region is the default region.** ``` Set-DefaultAWSRegion us-west-2 Copy-EC2Snapshot -SourceRegion eu-west-1 -SourceSnapshotId snap-12345678 ``` + For API details, see [CopySnapshot](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example copies the specified snapshot from the EU (Ireland) region to the US West (Oregon) region.** ``` Copy-EC2Snapshot -SourceRegion eu-west-1 -SourceSnapshotId snap-12345678 -Region us-west-2 ``` **Example 2: If you set a default region and omit the Region parameter, the default destination region is the default region.** ``` Set-DefaultAWSRegion us-west-2 Copy-EC2Snapshot -SourceRegion eu-west-1 -SourceSnapshotId snap-12345678 ``` + For API details, see [CopySnapshot](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateCapacityReservation` with a CLI The following code examples show how to use `CreateCapacityReservation`. ------ #### [ CLI ] **AWS CLI** **Example 1: To create a Capacity Reservation** The following `create-capacity-reservation` example creates a capacity reservation in the `eu-west-1a` Availability Zone, into which you can launch three `t2.medium` instances running a Linux/Unix operating system. By default, the capacity reservation is created with open instance matching criteria and no support for ephemeral storage, and it remains active until you manually cancel it. ``` aws ec2 create-capacity-reservation \ --availability-zone eu-west-1a \ --instance-type t2.medium \ --instance-platform Linux/UNIX \ --instance-count 3 ``` Output: ``` { "CapacityReservation": { "CapacityReservationId": "cr-1234abcd56EXAMPLE ", "EndDateType": "unlimited", "AvailabilityZone": "eu-west-1a", "InstanceMatchCriteria": "open", "EphemeralStorage": false, "CreateDate": "2019-08-16T09:27:35.000Z", "AvailableInstanceCount": 3, "InstancePlatform": "Linux/UNIX", "TotalInstanceCount": 3, "State": "active", "Tenancy": "default", "EbsOptimized": false, "InstanceType": "t2.medium" } } ``` **Example 2: To create a Capacity Reservation that automatically ends at a specified date/time** The following `create-capacity-reservation` example creates a capacity reservation in the `eu-west-1a` Availability Zone, into which you can launch three `m5.large` instances running a Linux/Unix operating system. This capacity reservation automatically ends on 08/31/2019 at 23:59:59. ``` aws ec2 create-capacity-reservation \ --availability-zone eu-west-1a \ --instance-type m5.large \ --instance-platform Linux/UNIX \ --instance-count 3 \ --end-date-type limited \ --end-date 2019-08-31T23:59:59Z ``` Output: ``` { "CapacityReservation": { "CapacityReservationId": "cr-1234abcd56EXAMPLE ", "EndDateType": "limited", "AvailabilityZone": "eu-west-1a", "EndDate": "2019-08-31T23:59:59.000Z", "InstanceMatchCriteria": "open", "EphemeralStorage": false, "CreateDate": "2019-08-16T10:15:53.000Z", "AvailableInstanceCount": 3, "InstancePlatform": "Linux/UNIX", "TotalInstanceCount": 3, "State": "active", "Tenancy": "default", "EbsOptimized": false, "InstanceType": "m5.large" } } ``` **Example 3: To create a Capacity Reservation that accepts only targeted instance launches** The following `create-capacity-reservation` example creates a capacity reservation that accepts only targeted instance launches. ``` aws ec2 create-capacity-reservation \ --availability-zone eu-west-1a \ --instance-type m5.large \ --instance-platform Linux/UNIX \ --instance-count 3 \ --instance-match-criteria targeted ``` Output: ``` { "CapacityReservation": { "CapacityReservationId": "cr-1234abcd56EXAMPLE ", "EndDateType": "unlimited", "AvailabilityZone": "eu-west-1a", "InstanceMatchCriteria": "targeted", "EphemeralStorage": false, "CreateDate": "2019-08-16T10:21:57.000Z", "AvailableInstanceCount": 3, "InstancePlatform": "Linux/UNIX", "TotalInstanceCount": 3, "State": "active", "Tenancy": "default", "EbsOptimized": false, "InstanceType": "m5.large" } } ``` For more information, see [Create a Capacity Reservation](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-using.html) in the *Amazon EC2 User Guide*. + For API details, see [CreateCapacityReservation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-capacity-reservation.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a new Capacity Reservation with the specified attributes** ``` Add-EC2CapacityReservation -InstanceType m4.xlarge -InstanceCount 2 -AvailabilityZone eu-west-1b -EbsOptimized True -InstancePlatform Windows ``` **Output:** ``` AvailabilityZone : eu-west-1b AvailableInstanceCount : 2 CapacityReservationId : cr-0c1f2345db6f7cdba CreateDate : 3/28/2019 9:29:41 AM EbsOptimized : True EndDate : 1/1/0001 12:00:00 AM EndDateType : unlimited EphemeralStorage : False InstanceMatchCriteria : open InstancePlatform : Windows InstanceType : m4.xlarge State : active Tags : {} Tenancy : default TotalInstanceCount : 2 ``` + For API details, see [CreateCapacityReservation](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a new Capacity Reservation with the specified attributes** ``` Add-EC2CapacityReservation -InstanceType m4.xlarge -InstanceCount 2 -AvailabilityZone eu-west-1b -EbsOptimized True -InstancePlatform Windows ``` **Output:** ``` AvailabilityZone : eu-west-1b AvailableInstanceCount : 2 CapacityReservationId : cr-0c1f2345db6f7cdba CreateDate : 3/28/2019 9:29:41 AM EbsOptimized : True EndDate : 1/1/0001 12:00:00 AM EndDateType : unlimited EphemeralStorage : False InstanceMatchCriteria : open InstancePlatform : Windows InstanceType : m4.xlarge State : active Tags : {} Tenancy : default TotalInstanceCount : 2 ``` + For API details, see [CreateCapacityReservation](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateCustomerGateway` with a CLI The following code examples show how to use `CreateCustomerGateway`. ------ #### [ CLI ] **AWS CLI** **To create a customer gateway** This example creates a customer gateway with the specified IP address for its outside interface. Command: ``` aws ec2 create-customer-gateway --type ipsec.1 --public-ip 12.1.2.3 --bgp-asn 65534 ``` Output: ``` { "CustomerGateway": { "CustomerGatewayId": "cgw-0e11f167", "IpAddress": "12.1.2.3", "State": "available", "Type": "ipsec.1", "BgpAsn": "65534" } } ``` + For API details, see [CreateCustomerGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-customer-gateway.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates the specified customer gateway.** ``` New-EC2CustomerGateway -Type ipsec.1 -PublicIp 203.0.113.12 -BgpAsn 65534 ``` **Output:** ``` BgpAsn : 65534 CustomerGatewayId : cgw-1a2b3c4d IpAddress : 203.0.113.12 State : available Tags : {} Type : ipsec.1 ``` + For API details, see [CreateCustomerGateway](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates the specified customer gateway.** ``` New-EC2CustomerGateway -Type ipsec.1 -PublicIp 203.0.113.12 -BgpAsn 65534 ``` **Output:** ``` BgpAsn : 65534 CustomerGatewayId : cgw-1a2b3c4d IpAddress : 203.0.113.12 State : available Tags : {} Type : ipsec.1 ``` + For API details, see [CreateCustomerGateway](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateDhcpOptions` with a CLI The following code examples show how to use `CreateDhcpOptions`. ------ #### [ CLI ] **AWS CLI** **To create a set of DHCP options** The following `create-dhcp-options` example creates a set of DHCP options that specifies the domain name, the domain name servers, and the NetBIOS node type. ``` aws ec2 create-dhcp-options \ --dhcp-configuration \ "Key=domain-name-servers,Values=10.2.5.1,10.2.5.2" \ "Key=domain-name,Values=example.com" \ "Key=netbios-node-type,Values=2" ``` Output: ``` { "DhcpOptions": { "DhcpConfigurations": [ { "Key": "domain-name", "Values": [ { "Value": "example.com" } ] }, { "Key": "domain-name-servers", "Values": [ { "Value": "10.2.5.1" }, { "Value": "10.2.5.2" } ] }, { "Key": "netbios-node-type", "Values": [ { "Value": "2" } ] } ], "DhcpOptionsId": "dopt-06d52773eff4c55f3" } } ``` + For API details, see [CreateDhcpOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-dhcp-options.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates the specified set of DHCP options. The syntax used by this example requires PowerShell version 3 or later.** ``` $options = @( @{Key="domain-name";Values=@("abc.local")}, @{Key="domain-name-servers";Values=@("10.0.0.101","10.0.0.102")}) New-EC2DhcpOption -DhcpConfiguration $options ``` **Output:** ``` DhcpConfigurations DhcpOptionsId Tags ------------------ ------------- ---- {domain-name, domain-name-servers} dopt-1a2b3c4d {} ``` **Example 2: With PowerShell version 2, you must use New-Object to create each DHCP option.** ``` $option1 = New-Object Amazon.EC2.Model.DhcpConfiguration $option1.Key = "domain-name" $option1.Values = "abc.local" $option2 = New-Object Amazon.EC2.Model.DhcpConfiguration $option2.Key = "domain-name-servers" $option2.Values = @("10.0.0.101","10.0.0.102") New-EC2DhcpOption -DhcpConfiguration @($option1, $option2) ``` **Output:** ``` DhcpConfigurations DhcpOptionsId Tags ------------------ ------------- ---- {domain-name, domain-name-servers} dopt-2a3b4c5d {} ``` + For API details, see [CreateDhcpOptions](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates the specified set of DHCP options. The syntax used by this example requires PowerShell version 3 or later.** ``` $options = @( @{Key="domain-name";Values=@("abc.local")}, @{Key="domain-name-servers";Values=@("10.0.0.101","10.0.0.102")}) New-EC2DhcpOption -DhcpConfiguration $options ``` **Output:** ``` DhcpConfigurations DhcpOptionsId Tags ------------------ ------------- ---- {domain-name, domain-name-servers} dopt-1a2b3c4d {} ``` **Example 2: With PowerShell version 2, you must use New-Object to create each DHCP option.** ``` $option1 = New-Object Amazon.EC2.Model.DhcpConfiguration $option1.Key = "domain-name" $option1.Values = "abc.local" $option2 = New-Object Amazon.EC2.Model.DhcpConfiguration $option2.Key = "domain-name-servers" $option2.Values = @("10.0.0.101","10.0.0.102") New-EC2DhcpOption -DhcpConfiguration @($option1, $option2) ``` **Output:** ``` DhcpConfigurations DhcpOptionsId Tags ------------------ ------------- ---- {domain-name, domain-name-servers} dopt-2a3b4c5d {} ``` + For API details, see [CreateDhcpOptions](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateFlowLogs` with a CLI The following code examples show how to use `CreateFlowLogs`. ------ #### [ CLI ] **AWS CLI** **Example 1: To create a flow log** The following `create-flow-logs` example creates a flow log that captures all rejected traffic for the specified network interface. The flow logs are delivered to a log group in CloudWatch Logs using the permissions in the specified IAM role. ``` aws ec2 create-flow-logs \ --resource-type NetworkInterface \ --resource-ids eni-11223344556677889 \ --traffic-type REJECT \ --log-group-name my-flow-logs \ --deliver-logs-permission-arn arn:aws:iam::123456789101:role/publishFlowLogs ``` Output: ``` { "ClientToken": "so0eNA2uSHUNlHI0S2cJ305GuIX1CezaRdGtexample", "FlowLogIds": [ "fl-12345678901234567" ], "Unsuccessful": [] } ``` For more information, see [VPC Flow Logs](https://docs.aws.amazon.com/vpc/latest/userguide/flow-logs.html) in the *Amazon VPC User Guide*. **Example 2: To create a flow log with a custom format** The following `create-flow-logs` example creates a flow log that captures all traffic for the specified VPC and delivers the flow logs to an Amazon S3 bucket. The `--log-format` parameter specifies a custom format for the flow log records. To run this command on Windows, change the single quotes (') to double quotes ("). ``` aws ec2 create-flow-logs \ --resource-type VPC \ --resource-ids vpc-00112233344556677 \ --traffic-type ALL \ --log-destination-type s3 \ --log-destination arn:aws:s3:::flow-log-bucket/my-custom-flow-logs/ \ --log-format '${version} ${vpc-id} ${subnet-id} ${instance-id} ${srcaddr} ${dstaddr} ${srcport} ${dstport} ${protocol} ${tcp-flags} ${type} ${pkt-srcaddr} ${pkt-dstaddr}' ``` For more information, see [VPC Flow Logs](https://docs.aws.amazon.com/vpc/latest/userguide/flow-logs.html) in the *Amazon VPC User Guide*. **Example 3: To create a flow log with a one-minute maximum aggregation interval** The following `create-flow-logs` example creates a flow log that captures all traffic for the specified VPC and delivers the flow logs to an Amazon S3 bucket. The `--max-aggregation-interval` parameter specifies a maximum aggregation interval of 60 seconds (1 minute). ``` aws ec2 create-flow-logs \ --resource-type VPC \ --resource-ids vpc-00112233344556677 \ --traffic-type ALL \ --log-destination-type s3 \ --log-destination arn:aws:s3:::flow-log-bucket/my-custom-flow-logs/ \ --max-aggregation-interval 60 ``` For more information, see [VPC Flow Logs](https://docs.aws.amazon.com/vpc/latest/userguide/flow-logs.html) in the *Amazon VPC User Guide*. + For API details, see [CreateFlowLogs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-flow-logs.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates EC2 flowlog for the subnet subnet-1d234567 to the cloud-watch-log named 'subnet1-log' for all 'REJECT' traffic using the perimssions of the 'Admin' role** ``` New-EC2FlowLog -ResourceId "subnet-1d234567" -LogDestinationType cloud-watch-logs -LogGroupName subnet1-log -TrafficType "REJECT" -ResourceType Subnet -DeliverLogsPermissionArn "arn:aws:iam::98765432109:role/Admin" ``` **Output:** ``` ClientToken FlowLogIds Unsuccessful ----------- ---------- ------------ m1VN2cxP3iB4qo//VUKl5EU6cF7gQLOxcqNefvjeTGw= {fl-012fc34eed5678c9d} {} ``` + For API details, see [CreateFlowLogs](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates EC2 flowlog for the subnet subnet-1d234567 to the cloud-watch-log named 'subnet1-log' for all 'REJECT' traffic using the perimssions of the 'Admin' role** ``` New-EC2FlowLog -ResourceId "subnet-1d234567" -LogDestinationType cloud-watch-logs -LogGroupName subnet1-log -TrafficType "REJECT" -ResourceType Subnet -DeliverLogsPermissionArn "arn:aws:iam::98765432109:role/Admin" ``` **Output:** ``` ClientToken FlowLogIds Unsuccessful ----------- ---------- ------------ m1VN2cxP3iB4qo//VUKl5EU6cF7gQLOxcqNefvjeTGw= {fl-012fc34eed5678c9d} {} ``` + For API details, see [CreateFlowLogs](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateImage` with a CLI The following code examples show how to use `CreateImage`. ------ #### [ CLI ] **AWS CLI** **Example 1: To create an AMI from an Amazon EBS-backed instance** The following `create-image` example creates an AMI from the specified instance. ``` aws ec2 create-image \ --instance-id i-1234567890abcdef0 \ --name "My server" \ --description "An AMI for my server" ``` Output: ``` { "ImageId": "ami-abcdef01234567890" } ``` For more information about specifying a block device mapping for your AMI, see [Specifying a block device mapping for an AMI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/block-device-mapping-concepts.html#create-ami-bdm) in the *Amazon EC2 User Guide*. **Example 2: To create an AMI from an Amazon EBS-backed instance without reboot** The following `create-image` example creates an AMI and sets the --no-reboot parameter, so that the instance is not rebooted before the image is created. ``` aws ec2 create-image \ --instance-id i-1234567890abcdef0 \ --name "My server" \ --no-reboot ``` Output: ``` { "ImageId": "ami-abcdef01234567890" } ``` For more information about specifying a block device mapping for your AMI, see [Specifying a block device mapping for an AMI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/block-device-mapping-concepts.html#create-ami-bdm) in the *Amazon EC2 User Guide*. **Example 3: To tag an AMI and snapshots on creation** The following `create-image` example creates an AMI, and tags the AMI and the snapshots with the same tag `cost-center=cc123` ``` aws ec2 create-image \ --instance-id i-1234567890abcdef0 \ --name "My server" \ --tag-specifications "ResourceType=image,Tags=[{Key=cost-center,Value=cc123}]" "ResourceType=snapshot,Tags=[{Key=cost-center,Value=cc123}]" ``` Output: ``` { "ImageId": "ami-abcdef01234567890" } ``` For more information about tagging your resources on creation, see [Add tags on resource creation](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#tag-on-create-examples) in the *Amazon EC2 User Guide*. + For API details, see [CreateImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-image.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates an AMI with the specified name and description, from the specified instance. Amazon EC2 attempts to cleanly shut down the instance before creating the image, and restarts the instance on completion.** ``` New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI" ``` **Example 2: This example creates an AMI with the specified name and description, from the specified instance. Amazon EC2 creates the image without shutting down and restarting the instance; therefore, file system integrity on the created image can't be guaranteed.** ``` New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI" -NoReboot $true ``` **Example 3: This example creates an AMI with three volumes. The first volume is based on an Amazon EBS snapshot. The second volume is an empty 100 GiB Amazon EBS volume. The third volume is an instance store volume. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ebsBlock1 = @{SnapshotId="snap-1a2b3c4d"} $ebsBlock2 = @{VolumeSize=100} New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI" -BlockDeviceMapping @( @{DeviceName="/dev/sdf";Ebs=$ebsBlock1}, @{DeviceName="/dev/sdg";Ebs=$ebsBlock2}, @{DeviceName="/dev/sdc";VirtualName="ephemeral0"}) ``` + For API details, see [CreateImage](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates an AMI with the specified name and description, from the specified instance. Amazon EC2 attempts to cleanly shut down the instance before creating the image, and restarts the instance on completion.** ``` New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI" ``` **Example 2: This example creates an AMI with the specified name and description, from the specified instance. Amazon EC2 creates the image without shutting down and restarting the instance; therefore, file system integrity on the created image can't be guaranteed.** ``` New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI" -NoReboot $true ``` **Example 3: This example creates an AMI with three volumes. The first volume is based on an Amazon EBS snapshot. The second volume is an empty 100 GiB Amazon EBS volume. The third volume is an instance store volume. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ebsBlock1 = @{SnapshotId="snap-1a2b3c4d"} $ebsBlock2 = @{VolumeSize=100} New-EC2Image -InstanceId i-12345678 -Name "my-web-server" -Description "My web server AMI" -BlockDeviceMapping @( @{DeviceName="/dev/sdf";Ebs=$ebsBlock1}, @{DeviceName="/dev/sdg";Ebs=$ebsBlock2}, @{DeviceName="/dev/sdc";VirtualName="ephemeral0"}) ``` + For API details, see [CreateImage](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateInstanceExportTask` with a CLI The following code examples show how to use `CreateInstanceExportTask`. ------ #### [ CLI ] **AWS CLI** **To export an instance** This example command creates a task to export the instance i-1234567890abcdef0 to the Amazon S3 bucket myexportbucket. Command: ``` aws ec2 create-instance-export-task --description "RHEL5 instance" --instance-id i-1234567890abcdef0 --target-environment vmware --export-to-s3-task DiskImageFormat=vmdk,ContainerFormat=ova,S3Bucket=myexportbucket,S3Prefix=RHEL5 ``` Output: ``` { "ExportTask": { "State": "active", "InstanceExportDetails": { "InstanceId": "i-1234567890abcdef0", "TargetEnvironment": "vmware" }, "ExportToS3Task": { "S3Bucket": "myexportbucket", "S3Key": "RHEL5export-i-fh8sjjsq.ova", "DiskImageFormat": "vmdk", "ContainerFormat": "ova" }, "Description": "RHEL5 instance", "ExportTaskId": "export-i-fh8sjjsq" } } ``` + For API details, see [CreateInstanceExportTask](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-instance-export-task.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example exports a stopped instance, `i-0800b00a00EXAMPLE`, as a virtual hard disk (VHD) to the S3 bucket `testbucket-export-instances-2019`. The target environment is `Microsoft`, and the region parameter is added because the instance is in the `us-east-1` region, while the user's default AWS Region is not us-east-1. To get the status of the export task, copy the `ExportTaskId` value from the results of this command, then run `Get-EC2ExportTask -ExportTaskId export_task_ID_from_results.`** ``` New-EC2InstanceExportTask -InstanceId i-0800b00a00EXAMPLE -ExportToS3Task_DiskImageFormat VHD -ExportToS3Task_S3Bucket "amzn-s3-demo-bucket" -TargetEnvironment Microsoft -Region us-east-1 ``` **Output:** ``` Description : ExportTaskId : export-i-077c73108aEXAMPLE ExportToS3Task : Amazon.EC2.Model.ExportToS3Task InstanceExportDetails : Amazon.EC2.Model.InstanceExportDetails State : active StatusMessage : ``` + For API details, see [CreateInstanceExportTask](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example exports a stopped instance, `i-0800b00a00EXAMPLE`, as a virtual hard disk (VHD) to the S3 bucket `testbucket-export-instances-2019`. The target environment is `Microsoft`, and the region parameter is added because the instance is in the `us-east-1` region, while the user's default AWS Region is not us-east-1. To get the status of the export task, copy the `ExportTaskId` value from the results of this command, then run `Get-EC2ExportTask -ExportTaskId export_task_ID_from_results.`** ``` New-EC2InstanceExportTask -InstanceId i-0800b00a00EXAMPLE -ExportToS3Task_DiskImageFormat VHD -ExportToS3Task_S3Bucket "amzn-s3-demo-bucket" -TargetEnvironment Microsoft -Region us-east-1 ``` **Output:** ``` Description : ExportTaskId : export-i-077c73108aEXAMPLE ExportToS3Task : Amazon.EC2.Model.ExportToS3Task InstanceExportDetails : Amazon.EC2.Model.InstanceExportDetails State : active StatusMessage : ``` + For API details, see [CreateInstanceExportTask](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateInternetGateway` with a CLI The following code examples show how to use `CreateInternetGateway`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ CLI ] **AWS CLI** **To create an internet gateway** The following `create-internet-gateway` example creates an internet gateway with the tag `Name=my-igw`. ``` aws ec2 create-internet-gateway \ --tag-specifications ResourceType=internet-gateway,Tags=[{Key=Name,Value=my-igw}] ``` Output: ``` { "InternetGateway": { "Attachments": [], "InternetGatewayId": "igw-0d0fb496b3994d755", "OwnerId": "123456789012", "Tags": [ { "Key": "Name", "Value": "my-igw" } ] } } ``` For more information, see [Internet gateways](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Internet_Gateway.html) in the *Amazon VPC User Guide*. + For API details, see [CreateInternetGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-internet-gateway.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates an Internet gateway.** ``` New-EC2InternetGateway ``` **Output:** ``` Attachments InternetGatewayId Tags ----------- ----------------- ---- {} igw-1a2b3c4d {} ``` + For API details, see [CreateInternetGateway](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates an Internet gateway.** ``` New-EC2InternetGateway ``` **Output:** ``` Attachments InternetGatewayId Tags ----------- ----------------- ---- {} igw-1a2b3c4d {} ``` + For API details, see [CreateInternetGateway](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateKeyPair` with an AWS SDK or CLI The following code examples show how to use `CreateKeyPair`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Creating an Amazon ECS service for the EC2 launch type](example_ecs_GettingStarted_018_section.md) + [Get started with Marketplace Buyer](example_ec2_GettingStarted_030_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) + [Getting started with Amazon EMR](example_emr_GettingStarted_037_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Create an Amazon EC2 key pair with a specified name. /// /// The name for the new key pair. /// The Amazon EC2 key pair created. public async Task CreateKeyPair(string keyPairName) { try { var request = new CreateKeyPairRequest { KeyName = keyPairName, }; var response = await _amazonEC2.CreateKeyPairAsync(request); var kp = response.KeyPair; // Return the key pair so it can be saved if needed. // Wait until the key pair exists. int retries = 5; while (retries-- > 0) { Console.WriteLine($"Checking for new KeyPair {keyPairName}..."); var keyPairs = await DescribeKeyPairs(keyPairName); if (keyPairs.Any()) { return kp; } Thread.Sleep(5000); retries--; } _logger.LogError($"Unable to find newly created KeyPair {keyPairName}."); throw new DoesNotExistException("KeyPair not found"); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidKeyPair.Duplicate") { _logger.LogError( $"A key pair called {keyPairName} already exists."); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while creating the key pair.: {ex.Message}"); throw; } } /// /// Save KeyPair information to a temporary file. /// /// The name of the key pair. /// The full path to the temporary file. public string SaveKeyPair(KeyPair keyPair) { var tempPath = Path.GetTempPath(); var tempFileName = $"{tempPath}\\{Path.GetRandomFileName()}"; var pemFileName = Path.ChangeExtension(tempFileName, "pem"); // Save the key pair to a file in a temporary folder. using var stream = new FileStream(pemFileName, FileMode.Create); using var writer = new StreamWriter(stream); writer.WriteLine(keyPair.KeyMaterial); return pemFileName; } ``` + For API details, see [CreateKeyPair](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateKeyPair) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_create_keypair # # This function creates an Amazon Elastic Compute Cloud (Amazon EC2) ED25519 or 2048-bit RSA key pair # and writes it to a file. # # Parameters: # -n key_pair_name - A key pair name. # -f file_path - File to store the key pair. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_create_keypair() { local key_pair_name file_path response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_create_keypair" echo "Creates an Amazon Elastic Compute Cloud (Amazon EC2) ED25519 or 2048-bit RSA key pair" echo " and writes it to a file." echo " -n key_pair_name - A key pair name." echo " -f file_path - File to store the key pair." echo "" } # Retrieve the calling parameters. while getopts "n:f:h" option; do case "${option}" in n) key_pair_name="${OPTARG}" ;; f) file_path="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$key_pair_name" ]]; then errecho "ERROR: You must provide a key name with the -n parameter." usage return 1 fi if [[ -z "$file_path" ]]; then errecho "ERROR: You must provide a file path with the -f parameter." usage return 1 fi response=$(aws ec2 create-key-pair \ --key-name "$key_pair_name" \ --query 'KeyMaterial' \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports create-access-key operation failed.$response" return 1 } if [[ -n "$file_path" ]]; then echo "$response" >"$file_path" fi return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [CreateKeyPair](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateKeyPair) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Create an Amazon Elastic Compute Cloud (Amazon EC2) instance key pair. /*! \param keyPairName: A name for a key pair. \param keyFilePath: File path where the credentials are stored. Ignored if it is an empty string; \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::createKeyPair(const Aws::String &keyPairName, const Aws::String &keyFilePath, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::CreateKeyPairRequest request; request.SetKeyName(keyPairName); Aws::EC2::Model::CreateKeyPairOutcome outcome = ec2Client.CreateKeyPair(request); if (!outcome.IsSuccess()) { std::cerr << "Failed to create key pair - " << keyPairName << ". " << outcome.GetError().GetMessage() << std::endl; } else { std::cout << "Successfully created key pair named " << keyPairName << std::endl; if (!keyFilePath.empty()) { std::ofstream keyFile(keyFilePath.c_str()); keyFile << outcome.GetResult().GetKeyMaterial(); keyFile.close(); std::cout << "Keys written to the file " << keyFilePath << std::endl; } } return outcome.IsSuccess(); } ``` + For API details, see [CreateKeyPair](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/CreateKeyPair) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **To create a key pair** This example creates a key pair named `MyKeyPair`. Command: ``` aws ec2 create-key-pair --key-name MyKeyPair ``` The output is an ASCII version of the private key and key fingerprint. You need to save the key to a file. For more information, see Using Key Pairs in the *AWS Command Line Interface User Guide*. + For API details, see [CreateKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-key-pair.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Creates a new key pair asynchronously. * * @param keyName the name of the key pair to create * @param fileName the name of the file to write the key material to * @return a {@link CompletableFuture} that represents the asynchronous operation * of creating the key pair and writing the key material to a file */ public CompletableFuture createKeyPairAsync(String keyName, String fileName) { CreateKeyPairRequest request = CreateKeyPairRequest.builder() .keyName(keyName) .build(); CompletableFuture responseFuture = getAsyncClient().createKeyPair(request); responseFuture.whenComplete((response, exception) -> { if (response != null) { try { BufferedWriter writer = new BufferedWriter(new FileWriter(fileName)); writer.write(response.keyMaterial()); writer.close(); } catch (IOException e) { throw new RuntimeException("Failed to write key material to file: " + e.getMessage(), e); } } else { throw new RuntimeException("Failed to create key pair: " + exception.getMessage(), exception); } }); return responseFuture; } ``` + For API details, see [CreateKeyPair](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateKeyPair) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { CreateKeyPairCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * Creates an ED25519 or 2048-bit RSA key pair with the specified name and in the specified PEM or PPK format. * Amazon EC2 stores the public key and displays the private key for you to save to a file. * @param {{ keyName: string }} options */ export const main = async ({ keyName }) => { const client = new EC2Client({}); const command = new CreateKeyPairCommand({ KeyName: keyName, }); try { const { KeyMaterial, KeyName } = await client.send(command); console.log(KeyName); console.log(KeyMaterial); } catch (caught) { if (caught instanceof Error && caught.name === "InvalidKeyPair.Duplicate") { console.warn(`${caught.message}. Try another key name.`); } else { throw caught; } } }; ``` + For API details, see [CreateKeyPair](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateKeyPairCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun createEC2KeyPair(keyNameVal: String) { val request = CreateKeyPairRequest { keyName = keyNameVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.createKeyPair(request) println("The key ID is ${response.keyPairId}") } } ``` + For API details, see [CreateKeyPair](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a key pair and captures the PEM-encoded RSA private key in a file with the specified name. When you are using PowerShell, the encoding must be set to ascii to generate a valid key. For more information, see Create, Display, and Delete Amazon EC2 Key Pairs (https://docs.aws.amazon.com/cli/latest/userguide/cli-services-ec2-keypairs.html) in the AWS Command Line Interface User Guide.** ``` (New-EC2KeyPair -KeyName "my-key-pair").KeyMaterial | Out-File -Encoding ascii -FilePath C:\path\my-key-pair.pem ``` + For API details, see [CreateKeyPair](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a key pair and captures the PEM-encoded RSA private key in a file with the specified name. When you are using PowerShell, the encoding must be set to ascii to generate a valid key. For more information, see Create, Display, and Delete Amazon EC2 Key Pairs (https://docs.aws.amazon.com/cli/latest/userguide/cli-services-ec2-keypairs.html) in the AWS Command Line Interface User Guide.** ``` (New-EC2KeyPair -KeyName "my-key-pair").KeyMaterial | Out-File -Encoding ascii -FilePath C:\path\my-key-pair.pem ``` + For API details, see [CreateKeyPair](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class KeyPairWrapper: """ Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) key pair actions. This class provides methods to create, list, and delete EC2 key pairs. """ def __init__( self, ec2_client: boto3.client, key_file_dir: Union[tempfile.TemporaryDirectory, str], key_pair: Optional[dict] = None, ): """ Initializes the KeyPairWrapper with the specified EC2 client, key file directory, and an optional key pair. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param key_file_dir: The folder where the private key information is stored. This should be a secure folder. :param key_pair: A dictionary representing the Boto3 KeyPair object. This is a high-level object that wraps key pair actions. Optional. """ self.ec2_client = ec2_client self.key_pair = key_pair self.key_file_path: Optional[str] = None self.key_file_dir = key_file_dir @classmethod def from_client(cls) -> "KeyPairWrapper": """ Class method to create an instance of KeyPairWrapper using a new EC2 client and a temporary directory for storing key files. :return: An instance of KeyPairWrapper. """ ec2_client = boto3.client("ec2") return cls(ec2_client, tempfile.TemporaryDirectory()) def create(self, key_name: str) -> dict: """ Creates a key pair that can be used to securely connect to an EC2 instance. The returned key pair contains private key information that cannot be retrieved again. The private key data is stored as a .pem file. :param key_name: The name of the key pair to create. :return: A dictionary representing the Boto3 KeyPair object that represents the newly created key pair. :raises ClientError: If there is an error in creating the key pair, for example, if a key pair with the same name already exists. """ try: response = self.ec2_client.create_key_pair(KeyName=key_name) self.key_pair = response self.key_file_path = os.path.join( self.key_file_dir.name, f"{self.key_pair['KeyName']}.pem" ) with open(self.key_file_path, "w") as key_file: key_file.write(self.key_pair["KeyMaterial"]) except ClientError as err: if err.response["Error"]["Code"] == "InvalidKeyPair.Duplicate": logger.error( f"A key pair called {key_name} already exists. " "Please choose a different name for your key pair " "or delete the existing key pair before creating." ) raise else: return self.key_pair ``` + For API details, see [CreateKeyPair](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateKeyPair) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` # This code example does the following: # 1. Creates a key pair in Amazon Elastic Compute Cloud (Amazon EC2). # 2. Displays information about available key pairs. # 3. Deletes the key pair. require 'aws-sdk-ec2' # @param ec2_client [Aws::EC2::Client] An initialized EC2 client. # @param key_pair_name [String] The name for the key pair and private # key file. # @return [Boolean] true if the key pair and private key file were # created; otherwise, false. # @example # exit 1 unless key_pair_created?( # Aws::EC2::Client.new(region: 'us-west-2'), # 'my-key-pair' # ) def key_pair_created?(ec2_client, key_pair_name) key_pair = ec2_client.create_key_pair(key_name: key_pair_name) puts "Created key pair '#{key_pair.key_name}' with fingerprint " \ "'#{key_pair.key_fingerprint}' and ID '#{key_pair.key_pair_id}'." filename = File.join(Dir.home, "#{key_pair_name}.pem") File.open(filename, 'w') { |file| file.write(key_pair.key_material) } puts "Private key file saved locally as '#{filename}'." true rescue Aws::EC2::Errors::InvalidKeyPairDuplicate puts "Error creating key pair: a key pair named '#{key_pair_name}' " \ 'already exists.' false rescue StandardError => e puts "Error creating key pair or saving private key file: #{e.message}" false end # Displays information about available key pairs in # Amazon Elastic Compute Cloud (Amazon EC2). # # @param ec2_client [Aws::EC2::Client] An initialized EC2 client. # @example # describe_key_pairs(Aws::EC2::Client.new(region: 'us-west-2')) def describe_key_pairs(ec2_client) result = ec2_client.describe_key_pairs if result.key_pairs.count.zero? puts 'No key pairs found.' else puts 'Key pair names:' result.key_pairs.each do |key_pair| puts key_pair.key_name end end rescue StandardError => e puts "Error getting information about key pairs: #{e.message}" end # Deletes a key pair in Amazon Elastic Compute Cloud (Amazon EC2). # # Prerequisites: # # - The key pair to delete. # # @param ec2_client [Aws::EC2::Client] An initialized EC2 client. # @param key_pair_name [String] The name of the key pair to delete. # @return [Boolean] true if the key pair was deleted; otherwise, false. # @example # exit 1 unless key_pair_deleted?( # Aws::EC2::Client.new(region: 'us-west-2'), # 'my-key-pair' # ) def key_pair_deleted?(ec2_client, key_pair_name) ec2_client.delete_key_pair(key_name: key_pair_name) true rescue StandardError => e puts "Error deleting key pair: #{e.message}" false end # Example usage: def run_me key_pair_name = '' region = '' # Print usage information and then stop. if ARGV[0] == '--help' || ARGV[0] == '-h' puts 'Usage: ruby ec2-ruby-example-key-pairs.rb KEY_PAIR_NAME REGION' puts 'Example: ruby ec2-ruby-example-key-pairs.rb my-key-pair us-west-2' exit 1 # If no values are specified at the command prompt, use these default values. # Replace us-west-2 with the AWS Region you're using for Amazon EC2. elsif ARGV.count.zero? key_pair_name = 'my-key-pair' region = 'us-west-2' # Otherwise, use the values as specified at the command prompt. else key_pair_name = ARGV[0] region = ARGV[1] end ec2_client = Aws::EC2::Client.new(region: region) puts 'Displaying existing key pair names before creating this key pair...' describe_key_pairs(ec2_client) puts '-' * 10 puts 'Creating key pair...' unless key_pair_created?(ec2_client, key_pair_name) puts 'Stopping program.' exit 1 end puts '-' * 10 puts 'Displaying existing key pair names after creating this key pair...' describe_key_pairs(ec2_client) puts '-' * 10 puts 'Deleting key pair...' unless key_pair_deleted?(ec2_client, key_pair_name) puts 'Stopping program. You must delete the key pair yourself.' exit 1 end puts 'Key pair deleted.' puts '-' * 10 puts 'Now that the key pair is deleted, ' \ 'also deleting the related private key pair file...' filename = File.join(Dir.home, "#{key_pair_name}.pem") File.delete(filename) if File.exist?(filename) puts "Could not delete file at '#{filename}'. You must delete it yourself." else puts 'File deleted.' end puts '-' * 10 puts 'Displaying existing key pair names after deleting this key pair...' describe_key_pairs(ec2_client) end run_me if $PROGRAM_NAME == __FILE__ ``` + For API details, see [CreateKeyPair](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/CreateKeyPair) in *AWS SDK for Ruby API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). Rust implementation that calls the EC2 Client's create\$1key\$1pair and extracts the returned material. ``` pub async fn create_key_pair(&self, name: String) -> Result<(KeyPairInfo, String), EC2Error> { tracing::info!("Creating key pair {name}"); let output = self.client.create_key_pair().key_name(name).send().await?; let info = KeyPairInfo::builder() .set_key_name(output.key_name) .set_key_fingerprint(output.key_fingerprint) .set_key_pair_id(output.key_pair_id) .build(); let material = output .key_material .ok_or_else(|| EC2Error::new("Create Key Pair has no key material"))?; Ok((info, material)) } ``` A function that calls the create\$1key impl and securely saves the PEM private key. ``` /// Creates a key pair that can be used to securely connect to an EC2 instance. /// The returned key pair contains private key information that cannot be retrieved /// again. The private key data is stored as a .pem file. /// /// :param key_name: The name of the key pair to create. pub async fn create( &mut self, ec2: &EC2, util: &Util, key_name: String, ) -> Result { let (key_pair, material) = ec2.create_key_pair(key_name.clone()).await.map_err(|e| { self.key_pair = KeyPairInfo::builder().key_name(key_name.clone()).build(); e.add_message(format!("Couldn't create key {key_name}")) })?; let path = self.key_file_dir.join(format!("{key_name}.pem")); // Save the key_pair information immediately, so it can get cleaned up if write_secure fails. self.key_file_path = Some(path.clone()); self.key_pair = key_pair.clone(); util.write_secure(&key_name, &path, material)?; Ok(key_pair) } ``` + For API details, see [CreateKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_key_pair) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. oo_result = lo_ec2->createkeypair( iv_keyname = iv_key_name ). " oo_result is returned for testing purposes. " MESSAGE 'Amazon EC2 key pair created.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [CreateKeyPair](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Create a new RSA key pair and save the private key to a randomly-named /// file in the temporary directory. /// /// - Parameter name: The name of the key pair to create. /// /// - Returns: The URL of the newly created `.pem` file or `nil` if unable /// to create the key pair. func createKeyPair(name: String) async -> URL? { do { let output = try await ec2Client.createKeyPair( input: CreateKeyPairInput( keyName: name ) ) guard let keyMaterial = output.keyMaterial else { return nil } // Build the URL of the temporary private key file. let fileURL = URL.temporaryDirectory .appendingPathComponent(name) .appendingPathExtension("pem") do { try keyMaterial.write(to: fileURL, atomically: true, encoding: String.Encoding.utf8) return fileURL } catch { print("*** Failed to write the private key.") return nil } } catch { print("*** Unable to create the key pair.") return nil } } ``` + For API details, see [CreateKeyPair](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/createkeypair(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateLaunchTemplate` with an AWS SDK or CLI The following code examples show how to use `CreateLaunchTemplate`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Build and manage a resilient service](example_cross_ResilientService_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). ``` /// /// Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling. /// The launch template specifies a Bash script in its user data field that runs after /// the instance is started. This script installs the Python packages and starts a Python /// web server on the instance. /// /// The path to a Bash script file that is run. /// The path to a permissions policy to create and attach to the profile. /// The template object. public async Task CreateTemplate(string startupScriptPath, string instancePolicyPath) { try { await CreateKeyPair(_keyPairName); await CreateInstanceProfileWithName(_instancePolicyName, _instanceRoleName, _instanceProfileName, instancePolicyPath); var startServerText = await File.ReadAllTextAsync(startupScriptPath); var plainTextBytes = System.Text.Encoding.UTF8.GetBytes(startServerText); var amiLatest = await _amazonSsm.GetParameterAsync( new GetParameterRequest() { Name = _amiParam }); var amiId = amiLatest.Parameter.Value; var launchTemplateResponse = await _amazonEc2.CreateLaunchTemplateAsync( new CreateLaunchTemplateRequest() { LaunchTemplateName = _launchTemplateName, LaunchTemplateData = new RequestLaunchTemplateData() { InstanceType = _instanceType, ImageId = amiId, IamInstanceProfile = new LaunchTemplateIamInstanceProfileSpecificationRequest() { Name = _instanceProfileName }, KeyName = _keyPairName, UserData = System.Convert.ToBase64String(plainTextBytes) } }); return launchTemplateResponse.LaunchTemplate; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.AlreadyExistsException") { _logger.LogError($"Could not create the template, the name {_launchTemplateName} already exists. " + $"Please try again with a unique name."); } throw; } catch (Exception ex) { _logger.LogError($"An error occurred while creating the template.: {ex.Message}"); throw; } } ``` + For API details, see [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateLaunchTemplate) in *AWS SDK for .NET API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To create a launch template** The following `create-launch-template` example creates a launch template that specifies the subnet in which to launch the instance , assigns a public IP address and an IPv6 address to the instance, and creates a tag for the instance. ``` aws ec2 create-launch-template \ --launch-template-name TemplateForWebServer \ --version-description WebVersion1 \ --launch-template-data '{"NetworkInterfaces":[{"AssociatePublicIpAddress":true,"DeviceIndex":0,"Ipv6AddressCount":1,"SubnetId":"subnet-7b16de0c"}],"ImageId":"ami-8c1be5f6","InstanceType":"t2.small","TagSpecifications":[{"ResourceType":"instance","Tags":[{"Key":"purpose","Value":"webserver"}]}]}' ``` Output: ``` { "LaunchTemplate": { "LatestVersionNumber": 1, "LaunchTemplateId": "lt-01238c059e3466abc", "LaunchTemplateName": "TemplateForWebServer", "DefaultVersionNumber": 1, "CreatedBy": "arn:aws:iam::123456789012:user/Bob", "CreateTime": "2019-01-27T09:13:24.000Z" } } ``` For more information, see Launching an Instance from a Launch Template in the *Amazon Elastic Compute Cloud User Guide*. For information about quoting JSON-formatted parameters, see Quoting Strings in the *AWS Command Line Interface User Guide*. **Example 2: To create a launch template for Amazon EC2 Auto Scaling** The following `create-launch-template` example creates a launch template with multiple tags and a block device mapping to specify an additional EBS volume when an instance launches. Specify a value for `Groups` that corresponds to security groups for the VPC that your Auto Scaling group will launch instances into. Specify the VPC and subnets as properties of the Auto Scaling group. ``` aws ec2 create-launch-template \ --launch-template-name TemplateForAutoScaling \ --version-description AutoScalingVersion1 \ --launch-template-data '{"NetworkInterfaces":[{"DeviceIndex":0,"AssociatePublicIpAddress":true,"Groups":["sg-7c227019,sg-903004f8"],"DeleteOnTermination":true}],"ImageId":"ami-b42209de","InstanceType":"m4.large","TagSpecifications":[{"ResourceType":"instance","Tags":[{"Key":"environment","Value":"production"},{"Key":"purpose","Value":"webserver"}]},{"ResourceType":"volume","Tags":[{"Key":"environment","Value":"production"},{"Key":"cost-center","Value":"cc123"}]}],"BlockDeviceMappings":[{"DeviceName":"/dev/sda1","Ebs":{"VolumeSize":100}}]}' --region us-east-1 ``` Output: ``` { "LaunchTemplate": { "LatestVersionNumber": 1, "LaunchTemplateId": "lt-0123c79c33a54e0abc", "LaunchTemplateName": "TemplateForAutoScaling", "DefaultVersionNumber": 1, "CreatedBy": "arn:aws:iam::123456789012:user/Bob", "CreateTime": "2019-04-30T18:16:06.000Z" } } ``` For more information, see Creating a Launch Template for an Auto Scaling Group in the *Amazon EC2 Auto Scaling User Guide*. For information about quoting JSON-formatted parameters, see Quoting Strings in the *AWS Command Line Interface User Guide*. **Example 3: To create a launch template that specifies encryption of EBS volumes** The following `create-launch-template` example creates a launch template that includes encrypted EBS volumes created from an unencrypted snapshot. It also tags the volumes during creation. If encryption by default is disabled, you must specify the `"Encrypted"` option as shown in the following example. If you use the `"KmsKeyId"` option to specify a customer managed CMK, you also must specify the `"Encrypted"` option even if encryption by default is enabled. ``` aws ec2 create-launch-template \ --launch-template-name TemplateForEncryption \ --launch-template-data file://config.json ``` Contents of `config.json`: ``` { "BlockDeviceMappings":[ { "DeviceName":"/dev/sda1", "Ebs":{ "VolumeType":"gp2", "DeleteOnTermination":true, "SnapshotId":"snap-066877671789bd71b", "Encrypted":true, "KmsKeyId":"arn:aws:kms:us-east-1:012345678910:key/abcd1234-a123-456a-a12b-a123b4cd56ef" } } ], "ImageId":"ami-00068cd7555f543d5", "InstanceType":"c5.large", "TagSpecifications":[ { "ResourceType":"volume", "Tags":[ { "Key":"encrypted", "Value":"yes" } ] } ] } ``` Output: ``` { "LaunchTemplate": { "LatestVersionNumber": 1, "LaunchTemplateId": "lt-0d5bd51bcf8530abc", "LaunchTemplateName": "TemplateForEncryption", "DefaultVersionNumber": 1, "CreatedBy": "arn:aws:iam::123456789012:user/Bob", "CreateTime": "2020-01-07T19:08:36.000Z" } } ``` For more information, see Restoring an Amazon EBS Volume from a Snapshot and Encryption by Default in the *Amazon Elastic Compute Cloud User Guide*. + For API details, see [CreateLaunchTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-launch-template.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). ``` const ssmClient = new SSMClient({}); const { Parameter } = await ssmClient.send( new GetParameterCommand({ Name: "/aws/service/ami-amazon-linux-latest/amzn2-ami-hvm-x86_64-gp2", }), ); const ec2Client = new EC2Client({}); await ec2Client.send( new CreateLaunchTemplateCommand({ LaunchTemplateName: NAMES.launchTemplateName, LaunchTemplateData: { InstanceType: "t3.micro", ImageId: Parameter.Value, IamInstanceProfile: { Name: NAMES.instanceProfileName }, UserData: readFileSync( join(RESOURCES_PATH, "server_startup_script.sh"), ).toString("base64"), KeyName: NAMES.keyPairName, }, }), ``` + For API details, see [CreateLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateLaunchTemplateCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). This example creates a launch template that includes an instance profile that grants specific permissions to the instance, and a user data Bash script that runs on the instance after it starts. ``` class AutoScalingWrapper: """ Encapsulates Amazon EC2 Auto Scaling and EC2 management actions. """ def __init__( self, resource_prefix: str, inst_type: str, ami_param: str, autoscaling_client: boto3.client, ec2_client: boto3.client, ssm_client: boto3.client, iam_client: boto3.client, ): """ Initializes the AutoScaler class with the necessary parameters. :param resource_prefix: The prefix for naming AWS resources that are created by this class. :param inst_type: The type of EC2 instance to create, such as t3.micro. :param ami_param: The Systems Manager parameter used to look up the AMI that is created. :param autoscaling_client: A Boto3 EC2 Auto Scaling client. :param ec2_client: A Boto3 EC2 client. :param ssm_client: A Boto3 Systems Manager client. :param iam_client: A Boto3 IAM client. """ self.inst_type = inst_type self.ami_param = ami_param self.autoscaling_client = autoscaling_client self.ec2_client = ec2_client self.ssm_client = ssm_client self.iam_client = iam_client sts_client = boto3.client("sts") self.account_id = sts_client.get_caller_identity()["Account"] self.key_pair_name = f"{resource_prefix}-key-pair" self.launch_template_name = f"{resource_prefix}-template-" self.group_name = f"{resource_prefix}-group" # Happy path self.instance_policy_name = f"{resource_prefix}-pol" self.instance_role_name = f"{resource_prefix}-role" self.instance_profile_name = f"{resource_prefix}-prof" # Failure mode self.bad_creds_policy_name = f"{resource_prefix}-bc-pol" self.bad_creds_role_name = f"{resource_prefix}-bc-role" self.bad_creds_profile_name = f"{resource_prefix}-bc-prof" def create_template( self, server_startup_script_file: str, instance_policy_file: str ) -> Dict[str, Any]: """ Creates an Amazon EC2 launch template to use with Amazon EC2 Auto Scaling. The launch template specifies a Bash script in its user data field that runs after the instance is started. This script installs Python packages and starts a Python web server on the instance. :param server_startup_script_file: The path to a Bash script file that is run when an instance starts. :param instance_policy_file: The path to a file that defines a permissions policy to create and attach to the instance profile. :return: Information about the newly created template. """ template = {} try: # Create key pair and instance profile self.create_key_pair(self.key_pair_name) self.create_instance_profile( instance_policy_file, self.instance_policy_name, self.instance_role_name, self.instance_profile_name, ) # Read the startup script with open(server_startup_script_file) as file: start_server_script = file.read() # Get the latest AMI ID ami_latest = self.ssm_client.get_parameter(Name=self.ami_param) ami_id = ami_latest["Parameter"]["Value"] # Create the launch template lt_response = self.ec2_client.create_launch_template( LaunchTemplateName=self.launch_template_name, LaunchTemplateData={ "InstanceType": self.inst_type, "ImageId": ami_id, "IamInstanceProfile": {"Name": self.instance_profile_name}, "UserData": base64.b64encode( start_server_script.encode(encoding="utf-8") ).decode(encoding="utf-8"), "KeyName": self.key_pair_name, }, ) template = lt_response["LaunchTemplate"] log.info( f"Created launch template {self.launch_template_name} for AMI {ami_id} on {self.inst_type}." ) except ClientError as err: log.error(f"Failed to create launch template {self.launch_template_name}.") error_code = err.response["Error"]["Code"] if error_code == "InvalidLaunchTemplateName.AlreadyExistsException": log.info( f"Launch template {self.launch_template_name} already exists, nothing to do." ) log.error(f"Full error:\n\t{err}") return template ``` + For API details, see [CreateLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateLaunchTemplate) in *AWS SDK for Python (Boto3) API Reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateNetworkAcl` with a CLI The following code examples show how to use `CreateNetworkAcl`. ------ #### [ CLI ] **AWS CLI** **To create a network ACL** This example creates a network ACL for the specified VPC. Command: ``` aws ec2 create-network-acl --vpc-id vpc-a01106c2 ``` Output: ``` { "NetworkAcl": { "Associations": [], "NetworkAclId": "acl-5fb85d36", "VpcId": "vpc-a01106c2", "Tags": [], "Entries": [ { "CidrBlock": "0.0.0.0/0", "RuleNumber": 32767, "Protocol": "-1", "Egress": true, "RuleAction": "deny" }, { "CidrBlock": "0.0.0.0/0", "RuleNumber": 32767, "Protocol": "-1", "Egress": false, "RuleAction": "deny" } ], "IsDefault": false } } ``` + For API details, see [CreateNetworkAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-network-acl.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a network ACL for the specified VPC.** ``` New-EC2NetworkAcl -VpcId vpc-12345678 ``` **Output:** ``` Associations : {} Entries : {Amazon.EC2.Model.NetworkAclEntry, Amazon.EC2.Model.NetworkAclEntry} IsDefault : False NetworkAclId : acl-12345678 Tags : {} VpcId : vpc-12345678 ``` + For API details, see [CreateNetworkAcl](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a network ACL for the specified VPC.** ``` New-EC2NetworkAcl -VpcId vpc-12345678 ``` **Output:** ``` Associations : {} Entries : {Amazon.EC2.Model.NetworkAclEntry, Amazon.EC2.Model.NetworkAclEntry} IsDefault : False NetworkAclId : acl-12345678 Tags : {} VpcId : vpc-12345678 ``` + For API details, see [CreateNetworkAcl](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateNetworkAclEntry` with a CLI The following code examples show how to use `CreateNetworkAclEntry`. ------ #### [ CLI ] **AWS CLI** **To create a network ACL entry** This example creates an entry for the specified network ACL. The rule allows ingress traffic from any IPv4 address (0.0.0.0/0) on UDP port 53 (DNS) into any associated subnet. If the command succeeds, no output is returned. Command: ``` aws ec2 create-network-acl-entry --network-acl-id acl-5fb85d36 --ingress --rule-number 100 --protocol udp --port-range From=53,To=53 --cidr-block 0.0.0.0/0 --rule-action allow ``` This example creates a rule for the specified network ACL that allows ingress traffic from any IPv6 address (::/0) on TCP port 80 (HTTP). Command: ``` aws ec2 create-network-acl-entry --network-acl-id acl-5fb85d36 --ingress --rule-number 120 --protocol tcp --port-range From=80,To=80 --ipv6-cidr-block ::/0 --rule-action allow ``` + For API details, see [CreateNetworkAclEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-network-acl-entry.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates an entry for the specified network ACL. The rule allows inbound traffic from anywhere (0.0.0.0/0) on UDP port 53 (DNS) into any associated subnet.** ``` New-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100 -Protocol 17 -PortRange_From 53 -PortRange_To 53 -CidrBlock 0.0.0.0/0 -RuleAction allow ``` + For API details, see [CreateNetworkAclEntry](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates an entry for the specified network ACL. The rule allows inbound traffic from anywhere (0.0.0.0/0) on UDP port 53 (DNS) into any associated subnet.** ``` New-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100 -Protocol 17 -PortRange_From 53 -PortRange_To 53 -CidrBlock 0.0.0.0/0 -RuleAction allow ``` + For API details, see [CreateNetworkAclEntry](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateNetworkInterface` with a CLI The following code examples show how to use `CreateNetworkInterface`. ------ #### [ CLI ] **AWS CLI** **Example 1: To specify an IPv4 address for a network interface** The following `create-network-interface` example creates a network interface for the specified subnet with the specified primary IPv4 address. ``` aws ec2 create-network-interface \ --subnet-id subnet-00a24d0d67acf6333 \ --description "my network interface" \ --groups sg-09dfba7ed20cda78b \ --private-ip-address 10.0.8.17 ``` Output: ``` { "NetworkInterface": { "AvailabilityZone": "us-west-2a", "Description": "my network interface", "Groups": [ { "GroupName": "my-security-group", "GroupId": "sg-09dfba7ed20cda78b" } ], "InterfaceType": "interface", "Ipv6Addresses": [], "MacAddress": "06:6a:0f:9a:49:37", "NetworkInterfaceId": "eni-0492b355f0cf3b3f8", "OwnerId": "123456789012", "PrivateDnsName": "ip-10-0-8-18.us-west-2.compute.internal", "PrivateIpAddress": "10.0.8.17", "PrivateIpAddresses": [ { "Primary": true, "PrivateDnsName": "ip-10-0-8-17.us-west-2.compute.internal", "PrivateIpAddress": "10.0.8.17" } ], "RequesterId": "AIDA4Z3Y7GSXTMEXAMPLE", "RequesterManaged": false, "SourceDestCheck": true, "Status": "pending", "SubnetId": "subnet-00a24d0d67acf6333", "TagSet": [], "VpcId": "vpc-02723a0feeeb9d57b" } } ``` **Example 2: To create a network interface with an IPv4 address and an IPv6 address** The following `create-network-interface` example creates a network interface for the specified subnet with an IPv4 address and an IPv6 address that are selected by Amazon EC2. ``` aws ec2 create-network-interface \ --subnet-id subnet-00a24d0d67acf6333 \ --description "my dual stack network interface" \ --ipv6-address-count 1 \ --groups sg-09dfba7ed20cda78b ``` Output: ``` { "NetworkInterface": { "AvailabilityZone": "us-west-2a", "Description": "my dual stack network interface", "Groups": [ { "GroupName": "my-security-group", "GroupId": "sg-09dfba7ed20cda78b" } ], "InterfaceType": "interface", "Ipv6Addresses": [ { "Ipv6Address": "2600:1f13:cfe:3650:a1dc:237c:393a:4ba7", "IsPrimaryIpv6": false } ], "MacAddress": "06:b8:68:d2:b2:2d", "NetworkInterfaceId": "eni-05da417453f9a84bf", "OwnerId": "123456789012", "PrivateDnsName": "ip-10-0-8-18.us-west-2.compute.internal", "PrivateIpAddress": "10.0.8.18", "PrivateIpAddresses": [ { "Primary": true, "PrivateDnsName": "ip-10-0-8-18.us-west-2.compute.internal", "PrivateIpAddress": "10.0.8.18" } ], "RequesterId": "AIDA4Z3Y7GSXTMEXAMPLE", "RequesterManaged": false, "SourceDestCheck": true, "Status": "pending", "SubnetId": "subnet-00a24d0d67acf6333", "TagSet": [], "VpcId": "vpc-02723a0feeeb9d57b", "Ipv6Address": "2600:1f13:cfe:3650:a1dc:237c:393a:4ba7" } } ``` **Example 3: To create a network interface with connection tracking configuration options** The following `create-network-interface` example creates a network interface and configures the idle connection tracking timeouts. ``` aws ec2 create-network-interface \ --subnet-id subnet-00a24d0d67acf6333 \ --groups sg-02e57dbcfe0331c1b \ --connection-tracking-specification TcpEstablishedTimeout=86400,UdpTimeout=60 ``` Output: ``` { "NetworkInterface": { "AvailabilityZone": "us-west-2a", "ConnectionTrackingConfiguration": { "TcpEstablishedTimeout": 86400, "UdpTimeout": 60 }, "Description": "", "Groups": [ { "GroupName": "my-security-group", "GroupId": "sg-02e57dbcfe0331c1b" } ], "InterfaceType": "interface", "Ipv6Addresses": [], "MacAddress": "06:4c:53:de:6d:91", "NetworkInterfaceId": "eni-0c133586e08903d0b", "OwnerId": "123456789012", "PrivateDnsName": "ip-10-0-8-94.us-west-2.compute.internal", "PrivateIpAddress": "10.0.8.94", "PrivateIpAddresses": [ { "Primary": true, "PrivateDnsName": "ip-10-0-8-94.us-west-2.compute.internal", "PrivateIpAddress": "10.0.8.94" } ], "RequesterId": "AIDA4Z3Y7GSXTMEXAMPLE", "RequesterManaged": false, "SourceDestCheck": true, "Status": "pending", "SubnetId": "subnet-00a24d0d67acf6333", "TagSet": [], "VpcId": "vpc-02723a0feeeb9d57b" } } ``` **Example 4: To create an Elastic Fabric Adapter** The following `create-network-interface` example creates an EFA. ``` aws ec2 create-network-interface \ --interface-type efa \ --subnet-id subnet-00a24d0d67acf6333 \ --description "my efa" \ --groups sg-02e57dbcfe0331c1b ``` Output: ``` { "NetworkInterface": { "AvailabilityZone": "us-west-2a", "Description": "my efa", "Groups": [ { "GroupName": "my-efa-sg", "GroupId": "sg-02e57dbcfe0331c1b" } ], "InterfaceType": "efa", "Ipv6Addresses": [], "MacAddress": "06:d7:a4:f7:4d:57", "NetworkInterfaceId": "eni-034acc2885e862b65", "OwnerId": "123456789012", "PrivateDnsName": "ip-10-0-8-180.us-west-2.compute.internal", "PrivateIpAddress": "10.0.8.180", "PrivateIpAddresses": [ { "Primary": true, "PrivateDnsName": "ip-10-0-8-180.us-west-2.compute.internal", "PrivateIpAddress": "10.0.8.180" } ], "RequesterId": "AIDA4Z3Y7GSXTMEXAMPLE", "RequesterManaged": false, "SourceDestCheck": true, "Status": "pending", "SubnetId": "subnet-00a24d0d67acf6333", "TagSet": [], "VpcId": "vpc-02723a0feeeb9d57b" } } ``` For more information, see [Elastic network interfaces](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-eni.html) in the *Amazon EC2 User Guide*. + For API details, see [CreateNetworkInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-network-interface.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates the specified network interface.** ``` New-EC2NetworkInterface -SubnetId subnet-1a2b3c4d -Description "my network interface" -Group sg-12345678 -PrivateIpAddress 10.0.0.17 ``` **Output:** ``` Association : Attachment : AvailabilityZone : us-west-2c Description : my network interface Groups : {my-security-group} MacAddress : 0a:72:bc:1a:cd:7f NetworkInterfaceId : eni-12345678 OwnerId : 123456789012 PrivateDnsName : ip-10-0-0-17.us-west-2.compute.internal PrivateIpAddress : 10.0.0.17 PrivateIpAddresses : {} RequesterId : RequesterManaged : False SourceDestCheck : True Status : pending SubnetId : subnet-1a2b3c4d TagSet : {} VpcId : vpc-12345678 ``` + For API details, see [CreateNetworkInterface](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates the specified network interface.** ``` New-EC2NetworkInterface -SubnetId subnet-1a2b3c4d -Description "my network interface" -Group sg-12345678 -PrivateIpAddress 10.0.0.17 ``` **Output:** ``` Association : Attachment : AvailabilityZone : us-west-2c Description : my network interface Groups : {my-security-group} MacAddress : 0a:72:bc:1a:cd:7f NetworkInterfaceId : eni-12345678 OwnerId : 123456789012 PrivateDnsName : ip-10-0-0-17.us-west-2.compute.internal PrivateIpAddress : 10.0.0.17 PrivateIpAddresses : {} RequesterId : RequesterManaged : False SourceDestCheck : True Status : pending SubnetId : subnet-1a2b3c4d TagSet : {} VpcId : vpc-12345678 ``` + For API details, see [CreateNetworkInterface](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreatePlacementGroup` with a CLI The following code examples show how to use `CreatePlacementGroup`. ------ #### [ CLI ] **AWS CLI** **To create a placement group** This example command creates a placement group with the specified name. Command: ``` aws ec2 create-placement-group --group-name my-cluster --strategy cluster ``` **To create a partition placement group** This example command creates a partition placement group named `HDFS-Group-A` with five partitions. Command: ``` aws ec2 create-placement-group --group-name HDFS-Group-A --strategy partition --partition-count 5 ``` + For API details, see [CreatePlacementGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-placement-group.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a placement group with the specified name.** ``` New-EC2PlacementGroup -GroupName my-placement-group -Strategy cluster ``` + For API details, see [CreatePlacementGroup](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a placement group with the specified name.** ``` New-EC2PlacementGroup -GroupName my-placement-group -Strategy cluster ``` + For API details, see [CreatePlacementGroup](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateRoute` with a CLI The following code examples show how to use `CreateRoute`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [Getting started with Amazon VPC Transit Gateway](example_vpc_TransitGatewayGettingStarted_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) + [Working with VPC peering connections](example_ec2_GettingStarted_015_section.md) ------ #### [ CLI ] **AWS CLI** **To create a route** This example creates a route for the specified route table. The route matches all IPv4 traffic (`0.0.0.0/0`) and routes it to the specified Internet gateway. If the command succeeds, no output is returned. Command: ``` aws ec2 create-route --route-table-id rtb-22574640 --destination-cidr-block 0.0.0.0/0 --gateway-id igw-c0a643a9 ``` This example command creates a route in route table rtb-g8ff4ea2. The route matches traffic for the IPv4 CIDR block 10.0.0.0/16 and routes it to VPC peering connection, pcx-111aaa22. This route enables traffic to be directed to the peer VPC in the VPC peering connection. If the command succeeds, no output is returned. Command: ``` aws ec2 create-route --route-table-id rtb-g8ff4ea2 --destination-cidr-block 10.0.0.0/16 --vpc-peering-connection-id pcx-1a2b3c4d ``` This example creates a route in the specified route table that matches all IPv6 traffic (`::/0`) and routes it to the specified egress-only Internet gateway. Command: ``` aws ec2 create-route --route-table-id rtb-dce620b8 --destination-ipv6-cidr-block ::/0 --egress-only-internet-gateway-id eigw-01eadbd45ecd7943f ``` + For API details, see [CreateRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-route.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates the specified route for the specified route table. The route matches all traffic and sends it to the specified Internet gateway.** ``` New-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 0.0.0.0/0 -GatewayId igw-1a2b3c4d ``` **Output:** ``` True ``` + For API details, see [CreateRoute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates the specified route for the specified route table. The route matches all traffic and sends it to the specified Internet gateway.** ``` New-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 0.0.0.0/0 -GatewayId igw-1a2b3c4d ``` **Output:** ``` True ``` + For API details, see [CreateRoute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateRouteTable` with an AWS SDK or CLI The following code examples show how to use `CreateRouteTable`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) + [Working with VPC peering connections](example_ec2_GettingStarted_015_section.md) ------ #### [ CLI ] **AWS CLI** **To create a route table** This example creates a route table for the specified VPC. Command: ``` aws ec2 create-route-table --vpc-id vpc-a01106c2 ``` Output: ``` { "RouteTable": { "Associations": [], "RouteTableId": "rtb-22574640", "VpcId": "vpc-a01106c2", "PropagatingVgws": [], "Tags": [], "Routes": [ { "GatewayId": "local", "DestinationCidrBlock": "10.0.0.0/16", "State": "active" } ] } } ``` + For API details, see [CreateRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-route-table.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a route table for the specified VPC.** ``` New-EC2RouteTable -VpcId vpc-12345678 ``` **Output:** ``` Associations : {} PropagatingVgws : {} Routes : {} RouteTableId : rtb-1a2b3c4d Tags : {} VpcId : vpc-12345678 ``` + For API details, see [CreateRouteTable](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a route table for the specified VPC.** ``` New-EC2RouteTable -VpcId vpc-12345678 ``` **Output:** ``` Associations : {} PropagatingVgws : {} Routes : {} RouteTableId : rtb-1a2b3c4d Tags : {} VpcId : vpc-12345678 ``` + For API details, see [CreateRouteTable](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` require 'aws-sdk-ec2' # Prerequisites: # # - A VPC in Amazon VPC. # - A subnet in that VPC. # - A gateway attached to that subnet. # # @param ec2_resource [Aws::EC2::Resource] An initialized # Amazon Elastic Compute Cloud (Amazon EC2) resource object. # @param vpc_id [String] The ID of the VPC for the route table. # @param subnet_id [String] The ID of the subnet for the route table. # @param gateway_id [String] The ID of the gateway for the route. # @param destination_cidr_block [String] The destination CIDR block # for the route. # @param tag_key [String] The key portion of the tag for the route table. # @param tag_value [String] The value portion of the tag for the route table. # @return [Boolean] true if the route table was created and associated; # otherwise, false. # @example # exit 1 unless route_table_created_and_associated?( # Aws::EC2::Resource.new(region: 'us-west-2'), # 'vpc-0b6f769731EXAMPLE', # 'subnet-03d9303b57EXAMPLE', # 'igw-06ca90c011EXAMPLE', # '0.0.0.0/0', # 'my-key', # 'my-value' # ) def route_table_created_and_associated?( ec2_resource, vpc_id, subnet_id, gateway_id, destination_cidr_block, tag_key, tag_value ) route_table = ec2_resource.create_route_table(vpc_id: vpc_id) puts "Created route table with ID '#{route_table.id}'." route_table.create_tags( tags: [ { key: tag_key, value: tag_value } ] ) puts 'Added tags to route table.' route_table.create_route( destination_cidr_block: destination_cidr_block, gateway_id: gateway_id ) puts 'Created route with destination CIDR block ' \ "'#{destination_cidr_block}' and associated with gateway " \ "with ID '#{gateway_id}'." route_table.associate_with_subnet(subnet_id: subnet_id) puts "Associated route table with subnet with ID '#{subnet_id}'." true rescue StandardError => e puts "Error creating or associating route table: #{e.message}" puts 'If the route table was created but not associated, you should ' \ 'clean up by deleting the route table.' false end # Example usage: def run_me vpc_id = '' subnet_id = '' gateway_id = '' destination_cidr_block = '' tag_key = '' tag_value = '' region = '' # Print usage information and then stop. if ARGV[0] == '--help' || ARGV[0] == '-h' puts 'Usage: ruby ec2-ruby-example-create-route-table.rb ' \ 'VPC_ID SUBNET_ID GATEWAY_ID DESTINATION_CIDR_BLOCK ' \ 'TAG_KEY TAG_VALUE REGION' # Replace us-west-2 with the AWS Region you're using for Amazon EC2. puts 'Example: ruby ec2-ruby-example-create-route-table.rb ' \ 'vpc-0b6f769731EXAMPLE subnet-03d9303b57EXAMPLE igw-06ca90c011EXAMPLE ' \ "'0.0.0.0/0' my-key my-value us-west-2" exit 1 # If no values are specified at the command prompt, use these default values. elsif ARGV.count.zero? vpc_id = 'vpc-0b6f769731EXAMPLE' subnet_id = 'subnet-03d9303b57EXAMPLE' gateway_id = 'igw-06ca90c011EXAMPLE' destination_cidr_block = '0.0.0.0/0' tag_key = 'my-key' tag_value = 'my-value' # Replace us-west-2 with the AWS Region you're using for Amazon EC2. region = 'us-west-2' # Otherwise, use the values as specified at the command prompt. else vpc_id = ARGV[0] subnet_id = ARGV[1] gateway_id = ARGV[2] destination_cidr_block = ARGV[3] tag_key = ARGV[4] tag_value = ARGV[5] region = ARGV[6] end ec2_resource = Aws::EC2::Resource.new(region: region) if route_table_created_and_associated?( ec2_resource, vpc_id, subnet_id, gateway_id, destination_cidr_block, tag_key, tag_value ) puts 'Route table created and associated.' else puts 'Route table not created or not associated.' end end run_me if $PROGRAM_NAME == __FILE__ ``` + For API details, see [CreateRouteTable](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/CreateRouteTable) in *AWS SDK for Ruby API Reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateSecurityGroup` with an AWS SDK or CLI The following code examples show how to use `CreateSecurityGroup`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Configure Amazon ECS Service Connect](example_ecs_ServiceConnect_085_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Create an Amazon ECS Linux task for the Fargate launch type](example_ecs_GettingStarted_086_section.md) + [Creating an Amazon ECS service for the EC2 launch type](example_ecs_GettingStarted_018_section.md) + [Creating an Amazon RDS DB instance](example_rds_GettingStarted_036_section.md) + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Get started with Marketplace Buyer](example_ec2_GettingStarted_030_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [Getting started with Elastic Load Balancing](example_elastic_load_balancing_v2_GettingStarted_058_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Create an Amazon EC2 security group with a specified name and description. /// /// The name for the new security group. /// A description of the new security group. /// The group Id of the new security group. public async Task CreateSecurityGroup(string groupName, string groupDescription) { try { var response = await _amazonEC2.CreateSecurityGroupAsync( new CreateSecurityGroupRequest(groupName, groupDescription)); // Wait until the security group exists. int retries = 5; while (retries-- > 0) { var groups = await DescribeSecurityGroups(response.GroupId); if (groups.Any()) { return response.GroupId; } Thread.Sleep(5000); retries--; } _logger.LogError($"Unable to find newly created group {groupName}."); throw new DoesNotExistException("security group not found"); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "ResourceAlreadyExists") { _logger.LogError( $"A security group with the name {groupName} already exists. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while creating the security group.: {ex.Message}"); throw; } } ``` + For API details, see [CreateSecurityGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/CreateSecurityGroup) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_create_security_group # # This function creates an Amazon Elastic Compute Cloud (Amazon EC2) security group. # # Parameters: # -n security_group_name - The name of the security group. # -d security_group_description - The description of the security group. # # Returns: # The ID of the created security group, or an error message if the operation fails. # And: # 0 - If successful. # 1 - If it fails. # ############################################################################### function ec2_create_security_group() { local security_group_name security_group_description response # Function to display usage information function usage() { echo "function ec2_create_security_group" echo "Creates an Amazon Elastic Compute Cloud (Amazon EC2) security group." echo " -n security_group_name - The name of the security group." echo " -d security_group_description - The description of the security group." echo "" } # Parse the command-line arguments while getopts "n:d:h" option; do case "${option}" in n) security_group_name="${OPTARG}" ;; d) security_group_description="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Validate the input parameters if [[ -z "$security_group_name" ]]; then errecho "ERROR: You must provide a security group name with the -n parameter." return 1 fi if [[ -z "$security_group_description" ]]; then errecho "ERROR: You must provide a security group description with the -d parameter." return 1 fi # Create the security group response=$(aws ec2 create-security-group \ --group-name "$security_group_name" \ --description "$security_group_description" \ --query "GroupId" \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports create-security-group operation failed." errecho "$response" return 1 } echo "$response" return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [CreateSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/CreateSecurityGroup) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Create a security group. /*! \param groupName: A security group name. \param description: A description. \param vpcID: A virtual private cloud (VPC) ID. \param[out] groupIDResult: A string to receive the group ID. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::createSecurityGroup(const Aws::String &groupName, const Aws::String &description, const Aws::String &vpcID, Aws::String &groupIDResult, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::CreateSecurityGroupRequest request; request.SetGroupName(groupName); request.SetDescription(description); request.SetVpcId(vpcID); const Aws::EC2::Model::CreateSecurityGroupOutcome outcome = ec2Client.CreateSecurityGroup(request); if (!outcome.IsSuccess()) { std::cerr << "Failed to create security group:" << outcome.GetError().GetMessage() << std::endl; return false; } std::cout << "Successfully created security group named " << groupName << std::endl; groupIDResult = outcome.GetResult().GetGroupId(); return true; } ``` + For API details, see [CreateSecurityGroup](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/CreateSecurityGroup) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **To create a security group for EC2-Classic** This example creates a security group named `MySecurityGroup`. Command: ``` aws ec2 create-security-group --group-name MySecurityGroup --description "My security group" ``` Output: ``` { "GroupId": "sg-903004f8" } ``` **To create a security group for EC2-VPC** This example creates a security group named `MySecurityGroup` for the specified VPC. Command: ``` aws ec2 create-security-group --group-name MySecurityGroup --description "My security group" --vpc-id vpc-1a2b3c4d ``` Output: ``` { "GroupId": "sg-903004f8" } ``` For more information, see Using Security Groups in the *AWS Command Line Interface User Guide*. + For API details, see [CreateSecurityGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-security-group.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Creates a new security group asynchronously with the specified group name, description, and VPC ID. It also * authorizes inbound traffic on ports 80 and 22 from the specified IP address. * * @param groupName the name of the security group to create * @param groupDesc the description of the security group * @param vpcId the ID of the VPC in which to create the security group * @param myIpAddress the IP address from which to allow inbound traffic (e.g., "192.168.1.1/0" to allow traffic from * any IP address in the 192.168.1.0/24 subnet) * @return a CompletableFuture that, when completed, returns the ID of the created security group * @throws RuntimeException if there was a failure creating the security group or authorizing the inbound traffic */ public CompletableFuture createSecurityGroupAsync(String groupName, String groupDesc, String vpcId, String myIpAddress) { CreateSecurityGroupRequest createRequest = CreateSecurityGroupRequest.builder() .groupName(groupName) .description(groupDesc) .vpcId(vpcId) .build(); return getAsyncClient().createSecurityGroup(createRequest) .thenCompose(createResponse -> { String groupId = createResponse.groupId(); IpRange ipRange = IpRange.builder() .cidrIp(myIpAddress + "/32") .build(); IpPermission ipPerm = IpPermission.builder() .ipProtocol("tcp") .toPort(80) .fromPort(80) .ipRanges(ipRange) .build(); IpPermission ipPerm2 = IpPermission.builder() .ipProtocol("tcp") .toPort(22) .fromPort(22) .ipRanges(ipRange) .build(); AuthorizeSecurityGroupIngressRequest authRequest = AuthorizeSecurityGroupIngressRequest.builder() .groupName(groupName) .ipPermissions(ipPerm, ipPerm2) .build(); return getAsyncClient().authorizeSecurityGroupIngress(authRequest) .thenApply(authResponse -> groupId); }) .whenComplete((result, exception) -> { if (exception != null) { if (exception instanceof CompletionException && exception.getCause() instanceof Ec2Exception) { throw (Ec2Exception) exception.getCause(); } else { throw new RuntimeException("Failed to create security group: " + exception.getMessage(), exception); } } }); } ``` + For API details, see [CreateSecurityGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/CreateSecurityGroup) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { CreateSecurityGroupCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * Creates a security group. * @param {{ groupName: string, description: string }} options */ export const main = async ({ groupName, description }) => { const client = new EC2Client({}); const command = new CreateSecurityGroupCommand({ // Up to 255 characters in length. Cannot start with sg-. GroupName: groupName, // Up to 255 characters in length. Description: description, }); try { const { GroupId } = await client.send(command); console.log(GroupId); } catch (caught) { if (caught instanceof Error && caught.name === "InvalidParameterValue") { console.warn(`${caught.message}.`); } else { throw caught; } } }; ``` + For API details, see [CreateSecurityGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/CreateSecurityGroupCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun createEC2SecurityGroup( groupNameVal: String?, groupDescVal: String?, vpcIdVal: String?, ): String? { val request = CreateSecurityGroupRequest { groupName = groupNameVal description = groupDescVal vpcId = vpcIdVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val resp = ec2.createSecurityGroup(request) val ipRange = IpRange { cidrIp = "0.0.0.0/0" } val ipPerm = IpPermission { ipProtocol = "tcp" toPort = 80 fromPort = 80 ipRanges = listOf(ipRange) } val ipPerm2 = IpPermission { ipProtocol = "tcp" toPort = 22 fromPort = 22 ipRanges = listOf(ipRange) } val authRequest = AuthorizeSecurityGroupIngressRequest { groupName = groupNameVal ipPermissions = listOf(ipPerm, ipPerm2) } ec2.authorizeSecurityGroupIngress(authRequest) println("Successfully added ingress policy to Security Group $groupNameVal") return resp.groupId } } ``` + For API details, see [CreateSecurityGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a security group for the specified VPC.** ``` New-EC2SecurityGroup -GroupName my-security-group -Description "my security group" -VpcId vpc-12345678 ``` **Output:** ``` sg-12345678 ``` **Example 2: This example creates a security group for EC2-Classic.** ``` New-EC2SecurityGroup -GroupName my-security-group -Description "my security group" ``` **Output:** ``` sg-45678901 ``` + For API details, see [CreateSecurityGroup](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a security group for the specified VPC.** ``` New-EC2SecurityGroup -GroupName my-security-group -Description "my security group" -VpcId vpc-12345678 ``` **Output:** ``` sg-12345678 ``` **Example 2: This example creates a security group for EC2-Classic.** ``` New-EC2SecurityGroup -GroupName my-security-group -Description "my security group" ``` **Output:** ``` sg-45678901 ``` + For API details, see [CreateSecurityGroup](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class SecurityGroupWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) security group actions.""" def __init__(self, ec2_client: boto3.client, security_group: Optional[str] = None): """ Initializes the SecurityGroupWrapper with an EC2 client and an optional security group ID. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param security_group: The ID of a security group to manage. This is a high-level identifier that represents the security group. """ self.ec2_client = ec2_client self.security_group = security_group @classmethod def from_client(cls) -> "SecurityGroupWrapper": """ Creates a SecurityGroupWrapper instance with a default EC2 client. :return: An instance of SecurityGroupWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def create(self, group_name: str, group_description: str) -> str: """ Creates a security group in the default virtual private cloud (VPC) of the current account. :param group_name: The name of the security group to create. :param group_description: The description of the security group to create. :return: The ID of the newly created security group. :raise Handles AWS SDK service-level ClientError, with special handling for ResourceAlreadyExists """ try: response = self.ec2_client.create_security_group( GroupName=group_name, Description=group_description ) self.security_group = response["GroupId"] except ClientError as err: if err.response["Error"]["Code"] == "ResourceAlreadyExists": logger.error( f"Security group '{group_name}' already exists. Please choose a different name." ) raise else: return self.security_group ``` + For API details, see [CreateSecurityGroup](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateSecurityGroup) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` # This code example does the following: # 1. Creates an Amazon Elastic Compute Cloud (Amazon EC2) security group. # 2. Adds inbound rules to the security group. # 3. Displays information about available security groups. # 4. Deletes the security group. require 'aws-sdk-ec2' # Creates an Amazon Elastic Compute Cloud (Amazon EC2) security group. # # Prerequisites: # # - A VPC in Amazon Virtual Private Cloud (Amazon VPC). # # @param ec2_client [Aws::EC2::Client] An initialized # Amazon EC2 client. # @param group_name [String] A name for the security group. # @param description [String] A description for the security group. # @param vpc_id [String] The ID of the VPC for the security group. # @return [String] The ID of security group that was created. # @example # puts create_security_group( # Aws::EC2::Client.new(region: 'us-west-2'), # 'my-security-group', # 'This is my security group.', # 'vpc-6713dfEX' # ) def create_security_group(ec2_client, group_name, description, vpc_id) security_group = ec2_client.create_security_group( group_name: group_name, description: description, vpc_id: vpc_id ) puts "Created security group '#{group_name}' with ID " \ "'#{security_group.group_id}' in VPC with ID '#{vpc_id}'." security_group.group_id rescue StandardError => e puts "Error creating security group: #{e.message}" 'Error' end # Adds an inbound rule to an Amazon Elastic Compute Cloud (Amazon EC2) # security group. # # Prerequisites: # # - The security group. # # @param ec2_client [Aws::EC2::Client] An initialized Amazon EC2 client. # @param security_group_id [String] The ID of the security group. # @param ip_protocol [String] The network protocol for the inbound rule. # @param from_port [String] The originating port for the inbound rule. # @param to_port [String] The destination port for the inbound rule. # @param cidr_ip_range [String] The CIDR IP range for the inbound rule. # @return # @example # exit 1 unless security_group_ingress_authorized?( # Aws::EC2::Client.new(region: 'us-west-2'), # 'sg-030a858e078f1b9EX', # 'tcp', # '80', # '80', # '0.0.0.0/0' # ) def security_group_ingress_authorized?( ec2_client, security_group_id, ip_protocol, from_port, to_port, cidr_ip_range ) ec2_client.authorize_security_group_ingress( group_id: security_group_id, ip_permissions: [ { ip_protocol: ip_protocol, from_port: from_port, to_port: to_port, ip_ranges: [ { cidr_ip: cidr_ip_range } ] } ] ) puts "Added inbound rule to security group '#{security_group_id}' for protocol " \ "'#{ip_protocol}' from port '#{from_port}' to port '#{to_port}' " \ "with CIDR IP range '#{cidr_ip_range}'." true rescue StandardError => e puts "Error adding inbound rule to security group: #{e.message}" false end # Refactored method to simplify complexity for describing security group permissions def format_port_information(perm) from_port_str = perm.from_port == '-1' || perm.from_port == -1 ? 'All' : perm.from_port.to_s to_port_str = perm.to_port == '-1' || perm.to_port == -1 ? 'All' : perm.to_port.to_s { from_port: from_port_str, to_port: to_port_str } end # Displays information about a security group's IP permissions set in # Amazon Elastic Compute Cloud (Amazon EC2). def describe_security_group_permissions(perm) ports = format_port_information(perm) print " Protocol: #{perm.ip_protocol == '-1' ? 'All' : perm.ip_protocol}" print ", From: #{ports[:from_port]}, To: #{ports[:to_port]}" print ", CIDR IPv6: #{perm.ipv_6_ranges[0].cidr_ipv_6}" if perm.key?(:ipv_6_ranges) && perm.ipv_6_ranges.count.positive? print ", CIDR IPv4: #{perm.ip_ranges[0].cidr_ip}" if perm.key?(:ip_ranges) && perm.ip_ranges.count.positive? print "\n" end # Displays information about available security groups in # Amazon Elastic Compute Cloud (Amazon EC2). def describe_security_groups(ec2_client) response = ec2_client.describe_security_groups if response.security_groups.count.positive? response.security_groups.each do |sg| display_group_details(sg) end else puts 'No security groups found.' end rescue StandardError => e puts "Error getting information about security groups: #{e.message}" end # Helper method to display the details of security groups def display_group_details(sg) puts '-' * (sg.group_name.length + 13) puts "Name: #{sg.group_name}" puts "Description: #{sg.description}" puts "Group ID: #{sg.group_id}" puts "Owner ID: #{sg.owner_id}" puts "VPC ID: #{sg.vpc_id}" display_group_tags(sg.tags) if sg.tags.count.positive? display_group_permissions(sg) end def display_group_tags(tags) puts 'Tags:' tags.each do |tag| puts " Key: #{tag.key}, Value: #{tag.value}" end end def display_group_permissions(sg) if sg.ip_permissions.count.positive? puts 'Inbound rules:' sg.ip_permissions.each do |p| describe_security_group_permissions(p) end end return if sg.ip_permissions_egress.empty? puts 'Outbound rules:' sg.ip_permissions_egress.each do |p| describe_security_group_permissions(p) end end # Deletes an Amazon Elastic Compute Cloud (Amazon EC2) # security group. def security_group_deleted?(ec2_client, security_group_id) ec2_client.delete_security_group(group_id: security_group_id) puts "Deleted security group '#{security_group_id}'." true rescue StandardError => e puts "Error deleting security group: #{e.message}" false end # Example usage with refactored run_me to reduce complexity def run_me group_name, description, vpc_id, ip_protocol_http, from_port_http, to_port_http, \ cidr_ip_range_http, ip_protocol_ssh, from_port_ssh, to_port_ssh, \ cidr_ip_range_ssh, region = process_arguments ec2_client = Aws::EC2::Client.new(region: region) security_group_id = attempt_create_security_group(ec2_client, group_name, description, vpc_id) security_group_exists = security_group_id != 'Error' if security_group_exists add_inbound_rules(ec2_client, security_group_id, ip_protocol_http, from_port_http, to_port_http, cidr_ip_range_http) add_inbound_rules(ec2_client, security_group_id, ip_protocol_ssh, from_port_ssh, to_port_ssh, cidr_ip_range_ssh) end describe_security_groups(ec2_client) attempt_delete_security_group(ec2_client, security_group_id) if security_group_exists end def process_arguments if ARGV[0] == '--help' || ARGV[0] == '-h' display_help exit 1 elsif ARGV.count.zero? default_values else ARGV end end def attempt_create_security_group(ec2_client, group_name, description, vpc_id) puts 'Attempting to create security group...' security_group_id = create_security_group(ec2_client, group_name, description, vpc_id) puts 'Could not create security group. Skipping this step.' if security_group_id == 'Error' security_group_id end def add_inbound_rules(ec2_client, security_group_id, ip_protocol, from_port, to_port, cidr_ip_range) puts 'Attempting to add inbound rules to security group...' return if security_group_ingress_authorized?(ec2_client, security_group_id, ip_protocol, from_port, to_port, cidr_ip_range) puts 'Could not add inbound rule to security group. Skipping this step.' end def attempt_delete_security_group(ec2_client, security_group_id) puts "\nAttempting to delete security group..." return if security_group_deleted?(ec2_client, security_group_id) puts 'Could not delete security group. You must delete it yourself.' end def display_help puts 'Usage: ruby ec2-ruby-example-security-group.rb ' \ 'GROUP_NAME DESCRIPTION VPC_ID IP_PROTOCOL_1 FROM_PORT_1 TO_PORT_1 ' \ 'CIDR_IP_RANGE_1 IP_PROTOCOL_2 FROM_PORT_2 TO_PORT_2 ' \ 'CIDR_IP_RANGE_2 REGION' puts 'Example: ruby ec2-ruby-example-security-group.rb ' \ "my-security-group 'This is my security group.' vpc-6713dfEX " \ "tcp 80 80 '0.0.0.0/0' tcp 22 22 '0.0.0.0/0' us-west-2" end def default_values [ 'my-security-group', 'This is my security group.', 'vpc-6713dfEX', 'tcp', '80', '80', '0.0.0.0/0', 'tcp', '22', '22', '0.0.0.0/0', 'us-west-2' ] end run_me if $PROGRAM_NAME == __FILE__ ``` + For API details, see [CreateSecurityGroup](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/CreateSecurityGroup) in *AWS SDK for Ruby API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn create_security_group( &self, name: &str, description: &str, ) -> Result { tracing::info!("Creating security group {name}"); let create_output = self .client .create_security_group() .group_name(name) .description(description) .send() .await .map_err(EC2Error::from)?; let group_id = create_output .group_id .ok_or_else(|| EC2Error::new("Missing security group id after creation"))?; let group = self .describe_security_group(&group_id) .await? .ok_or_else(|| { EC2Error::new(format!("Could not find security group with id {group_id}")) })?; tracing::info!("Created security group {name} as {group_id}"); Ok(group) } ``` + For API details, see [CreateSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_security_group) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. oo_result = lo_ec2->createsecuritygroup( " oo_result is returned for testing purposes. " iv_description = 'Security group example' iv_groupname = iv_security_group_name iv_vpcid = iv_vpc_id ). MESSAGE 'Security group created.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [CreateSecurityGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Create a new security group. /// /// - Parameters: /// - groupName: The name of the group to create. /// - groupDescription: A description of the new security group. /// /// - Returns: The ID string of the new security group. func createSecurityGroup(name groupName: String, description groupDescription: String) async -> String? { do { let output = try await ec2Client.createSecurityGroup( input: CreateSecurityGroupInput( description: groupDescription, groupName: groupName ) ) return output.groupId } catch { print("*** Error creating the security group: \(error.localizedDescription)") return nil } } ``` + For API details, see [CreateSecurityGroup](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/createsecuritygroup(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateSnapshot` with a CLI The following code examples show how to use `CreateSnapshot`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Working with Amazon EBS encryption, snapshots, and volume initialization](example_ec2_GettingStarted_022_section.md) ------ #### [ CLI ] **AWS CLI** **To create a snapshot** This example command creates a snapshot of the volume with a volume ID of `vol-1234567890abcdef0` and a short description to identify the snapshot. Command: ``` aws ec2 create-snapshot --volume-id vol-1234567890abcdef0 --description "This is my root volume snapshot" ``` Output: ``` { "Description": "This is my root volume snapshot", "Tags": [], "Encrypted": false, "VolumeId": "vol-1234567890abcdef0", "State": "pending", "VolumeSize": 8, "StartTime": "2018-02-28T21:06:01.000Z", "Progress": "", "OwnerId": "012345678910", "SnapshotId": "snap-066877671789bd71b" } ``` **To create a snapshot with tags** This example command creates a snapshot and applies two tags: purpose=prod and costcenter=123. Command: ``` aws ec2 create-snapshot --volume-id vol-1234567890abcdef0 --description 'Prod backup' --tag-specifications 'ResourceType=snapshot,Tags=[{Key=purpose,Value=prod},{Key=costcenter,Value=123}]' ``` Output: ``` { "Description": "Prod backup", "Tags": [ { "Value": "prod", "Key": "purpose" }, { "Value": "123", "Key": "costcenter" } ], "Encrypted": false, "VolumeId": "vol-1234567890abcdef0", "State": "pending", "VolumeSize": 8, "StartTime": "2018-02-28T21:06:06.000Z", "Progress": "", "OwnerId": "012345678910", "SnapshotId": "snap-09ed24a70bc19bbe4" } ``` + For API details, see [CreateSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-snapshot.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a snapshot of the specified volume.** ``` New-EC2Snapshot -VolumeId vol-12345678 -Description "This is a test" ``` **Output:** ``` DataEncryptionKeyId : Description : This is a test Encrypted : False KmsKeyId : OwnerAlias : OwnerId : 123456789012 Progress : SnapshotId : snap-12345678 StartTime : 12/22/2015 1:28:42 AM State : pending StateMessage : Tags : {} VolumeId : vol-12345678 VolumeSize : 20 ``` + For API details, see [CreateSnapshot](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a snapshot of the specified volume.** ``` New-EC2Snapshot -VolumeId vol-12345678 -Description "This is a test" ``` **Output:** ``` DataEncryptionKeyId : Description : This is a test Encrypted : False KmsKeyId : OwnerAlias : OwnerId : 123456789012 Progress : SnapshotId : snap-12345678 StartTime : 12/22/2015 1:28:42 AM State : pending StateMessage : Tags : {} VolumeId : vol-12345678 VolumeSize : 20 ``` + For API details, see [CreateSnapshot](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateSpotDatafeedSubscription` with a CLI The following code examples show how to use `CreateSpotDatafeedSubscription`. ------ #### [ CLI ] **AWS CLI** **To create a Spot Instance data feed** The following `create-spot-datafeed-subscription` example creates a Spot Instance data feed. ``` aws ec2 create-spot-datafeed-subscription \ --bucket amzn-s3-demo-bucket \ --prefix spot-data-feed ``` Output: ``` { "SpotDatafeedSubscription": { "Bucket": "amzn-s3-demo-bucket", "OwnerId": "123456789012", "Prefix": "spot-data-feed", "State": "Active" } } ``` The data feed is stored in the Amazon S3 bucket that you specified. The file names for this data feed have the following format. ``` amzn-s3-demo-bucket.s3.amazonaws.com/spot-data-feed/123456789012.YYYY-MM-DD-HH.n.abcd1234.gz ``` For more information, see [Spot Instance data feed](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/spot-data-feeds.html) in the *Amazon EC2 User Guide*. + For API details, see [CreateSpotDatafeedSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-spot-datafeed-subscription.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a Spot instance data feed.** ``` New-EC2SpotDatafeedSubscription -Bucket amzn-s3-demo-bucket -Prefix spotdata ``` **Output:** ``` Bucket : amzn-s3-demo-bucket Fault : OwnerId : 123456789012 Prefix : spotdata State : Active ``` + For API details, see [CreateSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a Spot instance data feed.** ``` New-EC2SpotDatafeedSubscription -Bucket amzn-s3-demo-bucket -Prefix spotdata ``` **Output:** ``` Bucket : amzn-s3-demo-bucket Fault : OwnerId : 123456789012 Prefix : spotdata State : Active ``` + For API details, see [CreateSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateSubnet` with an AWS SDK or CLI The following code examples show how to use `CreateSubnet`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [Getting started with Amazon VPC Transit Gateway](example_vpc_TransitGatewayGettingStarted_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) + [Working with VPC peering connections](example_ec2_GettingStarted_015_section.md) ------ #### [ CLI ] **AWS CLI** **Example 1: To create a subnet with an IPv4 CIDR block only** The following `create-subnet` example creates a subnet in the specified VPC with the specified IPv4 CIDR block. ``` aws ec2 create-subnet \ --vpc-id vpc-081ec835f3EXAMPLE \ --cidr-block 10.0.0.0/24 \ --tag-specifications ResourceType=subnet,Tags=[{Key=Name,Value=my-ipv4-only-subnet}] ``` Output: ``` { "Subnet": { "AvailabilityZone": "us-west-2a", "AvailabilityZoneId": "usw2-az2", "AvailableIpAddressCount": 251, "CidrBlock": "10.0.0.0/24", "DefaultForAz": false, "MapPublicIpOnLaunch": false, "State": "available", "SubnetId": "subnet-0e99b93155EXAMPLE", "VpcId": "vpc-081ec835f3EXAMPLE", "OwnerId": "123456789012", "AssignIpv6AddressOnCreation": false, "Ipv6CidrBlockAssociationSet": [], "Tags": [ { "Key": "Name", "Value": "my-ipv4-only-subnet" } ], "SubnetArn": "arn:aws:ec2:us-west-2:123456789012:subnet/subnet-0e99b93155EXAMPLE" } } ``` **Example 2: To create a subnet with both IPv4 and IPv6 CIDR blocks** The following `create-subnet` example creates a subnet in the specified VPC with the specified IPv4 and IPv6 CIDR blocks. ``` aws ec2 create-subnet \ --vpc-id vpc-081ec835f3EXAMPLE \ --cidr-block 10.0.0.0/24 \ --ipv6-cidr-block 2600:1f16:cfe:3660::/64 \ --tag-specifications ResourceType=subnet,Tags=[{Key=Name,Value=my-ipv4-ipv6-subnet}] ``` Output: ``` { "Subnet": { "AvailabilityZone": "us-west-2a", "AvailabilityZoneId": "usw2-az2", "AvailableIpAddressCount": 251, "CidrBlock": "10.0.0.0/24", "DefaultForAz": false, "MapPublicIpOnLaunch": false, "State": "available", "SubnetId": "subnet-0736441d38EXAMPLE", "VpcId": "vpc-081ec835f3EXAMPLE", "OwnerId": "123456789012", "AssignIpv6AddressOnCreation": false, "Ipv6CidrBlockAssociationSet": [ { "AssociationId": "subnet-cidr-assoc-06c5f904499fcc623", "Ipv6CidrBlock": "2600:1f13:cfe:3660::/64", "Ipv6CidrBlockState": { "State": "associating" } } ], "Tags": [ { "Key": "Name", "Value": "my-ipv4-ipv6-subnet" } ], "SubnetArn": "arn:aws:ec2:us-west-2:123456789012:subnet/subnet-0736441d38EXAMPLE" } } ``` **Example 3: To create a subnet with an IPv6 CIDR block only** The following `create-subnet` example creates a subnet in the specified VPC with the specified IPv6 CIDR block. ``` aws ec2 create-subnet \ --vpc-id vpc-081ec835f3EXAMPLE \ --ipv6-native \ --ipv6-cidr-block 2600:1f16:115:200::/64 \ --tag-specifications ResourceType=subnet,Tags=[{Key=Name,Value=my-ipv6-only-subnet}] ``` Output: ``` { "Subnet": { "AvailabilityZone": "us-west-2a", "AvailabilityZoneId": "usw2-az2", "AvailableIpAddressCount": 0, "DefaultForAz": false, "MapPublicIpOnLaunch": false, "State": "available", "SubnetId": "subnet-03f720e7deEXAMPLE", "VpcId": "vpc-081ec835f3EXAMPLE", "OwnerId": "123456789012", "AssignIpv6AddressOnCreation": true, "Ipv6CidrBlockAssociationSet": [ { "AssociationId": "subnet-cidr-assoc-01ef639edde556709", "Ipv6CidrBlock": "2600:1f13:cfe:3660::/64", "Ipv6CidrBlockState": { "State": "associating" } } ], "Tags": [ { "Key": "Name", "Value": "my-ipv6-only-subnet" } ], "SubnetArn": "arn:aws:ec2:us-west-2:123456789012:subnet/subnet-03f720e7deEXAMPLE" } } ``` For more information, see [VPCs and subnets](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Subnets.html) in the *Amazon VPC User Guide*. + For API details, see [CreateSubnet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-subnet.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a subnet with the specified CIDR.** ``` New-EC2Subnet -VpcId vpc-12345678 -CidrBlock 10.0.0.0/24 ``` **Output:** ``` AvailabilityZone : us-west-2c AvailableIpAddressCount : 251 CidrBlock : 10.0.0.0/24 DefaultForAz : False MapPublicIpOnLaunch : False State : pending SubnetId : subnet-1a2b3c4d Tag : {} VpcId : vpc-12345678 ``` + For API details, see [CreateSubnet](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a subnet with the specified CIDR.** ``` New-EC2Subnet -VpcId vpc-12345678 -CidrBlock 10.0.0.0/24 ``` **Output:** ``` AvailabilityZone : us-west-2c AvailableIpAddressCount : 251 CidrBlock : 10.0.0.0/24 DefaultForAz : False MapPublicIpOnLaunch : False State : pending SubnetId : subnet-1a2b3c4d Tag : {} VpcId : vpc-12345678 ``` + For API details, see [CreateSubnet](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` require 'aws-sdk-ec2' # Creates a subnet within a virtual private cloud (VPC) in # Amazon Virtual Private Cloud (Amazon VPC) and then tags # the subnet. # # Prerequisites: # # - A VPC in Amazon VPC. # # @param ec2_resource [Aws::EC2::Resource] An initialized # Amazon Elastic Compute Cloud (Amazon EC2) resource object. # @param vpc_id [String] The ID of the VPC for the subnet. # @param cidr_block [String] The IPv4 CIDR block for the subnet. # @param availability_zone [String] The ID of the Availability Zone # for the subnet. # @param tag_key [String] The key portion of the tag for the subnet. # @param tag_vlue [String] The value portion of the tag for the subnet. # @return [Boolean] true if the subnet was created and tagged; # otherwise, false. # @example # exit 1 unless subnet_created_and_tagged?( # Aws::EC2::Resource.new(region: 'us-west-2'), # 'vpc-6713dfEX', # '10.0.0.0/24', # 'us-west-2a', # 'my-key', # 'my-value' # ) def subnet_created_and_tagged?( ec2_resource, vpc_id, cidr_block, availability_zone, tag_key, tag_value ) subnet = ec2_resource.create_subnet( vpc_id: vpc_id, cidr_block: cidr_block, availability_zone: availability_zone ) subnet.create_tags( tags: [ { key: tag_key, value: tag_value } ] ) puts "Subnet created with ID '#{subnet.id}' in VPC with ID '#{vpc_id}' " \ "and CIDR block '#{cidr_block}' in availability zone " \ "'#{availability_zone}' and tagged with key '#{tag_key}' and " \ "value '#{tag_value}'." true rescue StandardError => e puts "Error creating or tagging subnet: #{e.message}" false end # Example usage: def run_me vpc_id = '' cidr_block = '' availability_zone = '' tag_key = '' tag_value = '' region = '' # Print usage information and then stop. if ARGV[0] == '--help' || ARGV[0] == '-h' puts 'Usage: ruby ec2-ruby-example-create-subnet.rb ' \ 'VPC_ID CIDR_BLOCK AVAILABILITY_ZONE TAG_KEY TAG_VALUE REGION' # Replace us-west-2 with the AWS Region you're using for Amazon EC2. puts 'Example: ruby ec2-ruby-example-create-subnet.rb ' \ 'vpc-6713dfEX 10.0.0.0/24 us-west-2a my-key my-value us-west-2' exit 1 # If no values are specified at the command prompt, use these default values. elsif ARGV.count.zero? vpc_id = 'vpc-6713dfEX' cidr_block = '10.0.0.0/24' availability_zone = 'us-west-2a' tag_key = 'my-key' tag_value = 'my-value' # Replace us-west-2 with the AWS Region you're using for Amazon EC2. region = 'us-west-2' # Otherwise, use the values as specified at the command prompt. else vpc_id = ARGV[0] cidr_block = ARGV[1] availability_zone = ARGV[2] tag_key = ARGV[3] tag_value = ARGV[4] region = ARGV[5] end ec2_resource = Aws::EC2::Resource.new(region: region) if subnet_created_and_tagged?( ec2_resource, vpc_id, cidr_block, availability_zone, tag_key, tag_value ) puts 'Subnet created and tagged.' else puts 'Subnet not created or not tagged.' end end run_me if $PROGRAM_NAME == __FILE__ ``` + For API details, see [CreateSubnet](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/CreateSubnet) in *AWS SDK for Ruby API Reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateTags` with an AWS SDK or CLI The following code examples show how to use `CreateTags`. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Add or overwrite only the specified tags for the specified Amazon Elastic Compute Cloud (Amazon EC2) resource or resources. /*! \param resources: The resources for the tags. \param tags: Vector of tags. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::createTags(const Aws::Vector &resources, const Aws::Vector &tags, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::CreateTagsRequest createTagsRequest; createTagsRequest.SetResources(resources); createTagsRequest.SetTags(tags); Aws::EC2::Model::CreateTagsOutcome outcome = ec2Client.CreateTags(createTagsRequest); if (outcome.IsSuccess()) { std::cout << "Successfully created tags for resources" << std::endl; } else { std::cerr << "Failed to create tags for resources, " << outcome.GetError().GetMessage() << std::endl; } return outcome.IsSuccess(); } ``` + For API details, see [CreateTags](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/CreateTags) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To add a tag to a resource** The following `create-tags` example adds the tag `Stack=production` to the specified image, or overwrites an existing tag for the AMI where the tag key is `Stack`. ``` aws ec2 create-tags \ --resources ami-1234567890abcdef0 \ --tags Key=Stack,Value=production ``` This command produces no output **Example 2: To add tags to multiple resources** The following `create-tags` example adds (or overwrites) two tags for an AMI and an instance. One of the tags has a key (`webserver`) but no value (value is set to an empty string). The other tag has a key (`stack`) and a value (`Production`). ``` aws ec2 create-tags \ --resources ami-1a2b3c4d i-1234567890abcdef0 \ --tags Key=webserver,Value= Key=stack,Value=Production ``` This command produces no output **Example 3: To add tags containing special characters** The following `create-tags` examples add the tag `[Group]=test` for an instance. The square brackets ([ and ]) are special characters, and must be escaped. The following examples also use the line continuation character appropriate for each environment. If you are using Windows, surround the element that has special characters with double quotes ("), and then precede each double quote character with a backslash (\$1) as follows. ``` aws ec2 create-tags ^ --resources i-1234567890abcdef0 ^ --tags Key=\"[Group]\",Value=test ``` If you are using Windows PowerShell, surround the element the value that has special characters with double quotes ("), precede each double quote character with a backslash (\$1), and then surround the entire key and value structure with single quotes (') as follows. ``` aws ec2 create-tags ` --resources i-1234567890abcdef0 ` --tags 'Key=\"[Group]\",Value=test' ``` If you are using Linux or OS X, surround the element that has special characters with double quotes ("), and then surround the entire key and value structure with single quotes (') as follows. ``` aws ec2 create-tags \ --resources i-1234567890abcdef0 \ --tags 'Key="[Group]",Value=test' ``` For more information, see [Tag your Amazon EC2 resources](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html) in the *Amazon EC2 User Guide*. + For API details, see [CreateTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-tags.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example adds a single tag to the specified resource. The tag key is 'myTag' and the tag value is 'myTagValue'. The syntax used by this example requires PowerShell version 3 or higher.** ``` New-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag"; Value="myTagValue" } ``` **Example 2: This example updates or adds the specified tags to the specified resource. The syntax used by this example requires PowerShell version 3 or higher.** ``` New-EC2Tag -Resource i-12345678 -Tag @( @{ Key="myTag"; Value="newTagValue" }, @{ Key="test"; Value="anotherTagValue" } ) ``` **Example 3: With PowerShell version 2, you must use New-Object to create the tag for the Tag parameter.** ``` $tag = New-Object Amazon.EC2.Model.Tag $tag.Key = "myTag" $tag.Value = "myTagValue" New-EC2Tag -Resource i-12345678 -Tag $tag ``` + For API details, see [CreateTags](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example adds a single tag to the specified resource. The tag key is 'myTag' and the tag value is 'myTagValue'. The syntax used by this example requires PowerShell version 3 or higher.** ``` New-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag"; Value="myTagValue" } ``` **Example 2: This example updates or adds the specified tags to the specified resource. The syntax used by this example requires PowerShell version 3 or higher.** ``` New-EC2Tag -Resource i-12345678 -Tag @( @{ Key="myTag"; Value="newTagValue" }, @{ Key="test"; Value="anotherTagValue" } ) ``` **Example 3: With PowerShell version 2, you must use New-Object to create the tag for the Tag parameter.** ``` $tag = New-Object Amazon.EC2.Model.Tag $tag.Key = "myTag" $tag.Value = "myTagValue" New-EC2Tag -Resource i-12345678 -Tag $tag ``` + For API details, see [CreateTags](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). This example applies the Name tag After creating an instance. ``` pub async fn create_instance<'a>( &self, image_id: &'a str, instance_type: InstanceType, key_pair: &'a KeyPairInfo, security_groups: Vec<&'a SecurityGroup>, ) -> Result { let run_instances = self .client .run_instances() .image_id(image_id) .instance_type(instance_type) .key_name( key_pair .key_name() .ok_or_else(|| EC2Error::new("Missing key name when launching instance"))?, ) .set_security_group_ids(Some( security_groups .iter() .filter_map(|sg| sg.group_id.clone()) .collect(), )) .min_count(1) .max_count(1) .send() .await?; if run_instances.instances().is_empty() { return Err(EC2Error::new("Failed to create instance")); } let instance_id = run_instances.instances()[0].instance_id().unwrap(); let response = self .client .create_tags() .resources(instance_id) .tags( Tag::builder() .key("Name") .value("From SDK Examples") .build(), ) .send() .await; match response { Ok(_) => tracing::info!("Created {instance_id} and applied tags."), Err(err) => { tracing::info!("Error applying tags to {instance_id}: {err:?}"); return Err(err.into()); } } tracing::info!("Instance is created."); Ok(instance_id.to_string()) } ``` + For API details, see [CreateTags](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.create_tags) in *AWS SDK for Rust API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateVolume` with a CLI The following code examples show how to use `CreateVolume`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Working with Amazon EBS encryption, snapshots, and volume initialization](example_ec2_GettingStarted_022_section.md) ------ #### [ CLI ] **AWS CLI** **To create an empty General Purpose SSD (gp2) volume** The following `create-volume` example creates an 80 GiB General Purpose SSD (gp2) volume in the specified Availability Zone. Note that the current Region must be `us-east-1`, or you can add the `--region` parameter to specify the Region for the command. ``` aws ec2 create-volume \ --volume-type gp2 \ --size 80 \ --availability-zone us-east-1a ``` Output: ``` { "AvailabilityZone": "us-east-1a", "Tags": [], "Encrypted": false, "VolumeType": "gp2", "VolumeId": "vol-1234567890abcdef0", "State": "creating", "Iops": 240, "SnapshotId": "", "CreateTime": "YYYY-MM-DDTHH:MM:SS.000Z", "Size": 80 } ``` If you do not specify a volume type, the default volume type is `gp2`. ``` aws ec2 create-volume \ --size 80 \ --availability-zone us-east-1a ``` **Example 2: To create a Provisioned IOPS SSD (io1) volume from a snapshot** The following `create-volume` example creates a Provisioned IOPS SSD (io1) volume with 1000 provisioned IOPS in the specified Availability Zone using the specified snapshot. ``` aws ec2 create-volume \ --volume-type io1 \ --iops 1000 \ --snapshot-id snap-066877671789bd71b \ --availability-zone us-east-1a ``` Output: ``` { "AvailabilityZone": "us-east-1a", "Tags": [], "Encrypted": false, "VolumeType": "io1", "VolumeId": "vol-1234567890abcdef0", "State": "creating", "Iops": 1000, "SnapshotId": "snap-066877671789bd71b", "CreateTime": "YYYY-MM-DDTHH:MM:SS.000Z", "Size": 500 } ``` **Example 3: To create an encrypted volume** The following `create-volume` example creates an encrypted volume using the default CMK for EBS encryption. If encryption by default is disabled, you must specify the `--encrypted` parameter as follows. ``` aws ec2 create-volume \ --size 80 \ --encrypted \ --availability-zone us-east-1a ``` Output: ``` { "AvailabilityZone": "us-east-1a", "Tags": [], "Encrypted": true, "VolumeType": "gp2", "VolumeId": "vol-1234567890abcdef0", "State": "creating", "Iops": 240, "SnapshotId": "", "CreateTime": "YYYY-MM-DDTHH:MM:SS.000Z", "Size": 80 } ``` If encryption by default is enabled, the following example command creates an encrypted volume, even without the `--encrypted` parameter. ``` aws ec2 create-volume \ --size 80 \ --availability-zone us-east-1a ``` If you use the `--kms-key-id` parameter to specify a customer managed CMK, you must specify the `--encrypted` parameter even if encryption by default is enabled. ``` aws ec2 create-volume \ --volume-type gp2 \ --size 80 \ --encrypted \ --kms-key-id 0ea3fef3-80a7-4778-9d8c-1c0c6EXAMPLE \ --availability-zone us-east-1a ``` **Example 4: To create a volume with tags** The following `create-volume` example creates a volume and adds two tags. ``` aws ec2 create-volume \ --availability-zone us-east-1a \ --volume-type gp2 \ --size 80 \ --tag-specifications 'ResourceType=volume,Tags=[{Key=purpose,Value=production},{Key=cost-center,Value=cc123}]' ``` + For API details, see [CreateVolume](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-volume.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates the specified volume.** ``` New-EC2Volume -Size 50 -AvailabilityZone us-west-2a -VolumeType gp2 ``` **Output:** ``` Attachments : {} AvailabilityZone : us-west-2a CreateTime : 12/22/2015 1:42:07 AM Encrypted : False Iops : 150 KmsKeyId : Size : 50 SnapshotId : State : creating Tags : {} VolumeId : vol-12345678 VolumeType : gp2 ``` **Example 2: This example request creates a volume and applies a tag with a key of stack and a value of production.** ``` $tag = @{ Key="stack"; Value="production" } $tagspec = new-object Amazon.EC2.Model.TagSpecification $tagspec.ResourceType = "volume" $tagspec.Tags.Add($tag) New-EC2Volume -Size 80 -AvailabilityZone "us-west-2a" -TagSpecification $tagspec ``` + For API details, see [CreateVolume](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates the specified volume.** ``` New-EC2Volume -Size 50 -AvailabilityZone us-west-2a -VolumeType gp2 ``` **Output:** ``` Attachments : {} AvailabilityZone : us-west-2a CreateTime : 12/22/2015 1:42:07 AM Encrypted : False Iops : 150 KmsKeyId : Size : 50 SnapshotId : State : creating Tags : {} VolumeId : vol-12345678 VolumeType : gp2 ``` **Example 2: This example request creates a volume and applies a tag with a key of stack and a value of production.** ``` $tag = @{ Key="stack"; Value="production" } $tagspec = new-object Amazon.EC2.Model.TagSpecification $tagspec.ResourceType = "volume" $tagspec.Tags.Add($tag) New-EC2Volume -Size 80 -AvailabilityZone "us-west-2a" -TagSpecification $tagspec ``` + For API details, see [CreateVolume](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateVpc` with an AWS SDK or CLI The following code examples show how to use `CreateVpc`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [Getting started with Amazon VPC Transit Gateway](example_vpc_TransitGatewayGettingStarted_section.md) + [VPC with IPAM](example_vpc_GettingStartedIpam_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) + [Working with VPC peering connections](example_ec2_GettingStarted_015_section.md) ------ #### [ CLI ] **AWS CLI** **Example 1: To create a VPC** The following `create-vpc` example creates a VPC with the specified IPv4 CIDR block and a Name tag. ``` aws ec2 create-vpc \ --cidr-block 10.0.0.0/16 \ --tag-specifications ResourceType=vpc,Tags=[{Key=Name,Value=MyVpc}] ``` Output: ``` { "Vpc": { "CidrBlock": "10.0.0.0/16", "DhcpOptionsId": "dopt-5EXAMPLE", "State": "pending", "VpcId": "vpc-0a60eb65b4EXAMPLE", "OwnerId": "123456789012", "InstanceTenancy": "default", "Ipv6CidrBlockAssociationSet": [], "CidrBlockAssociationSet": [ { "AssociationId": "vpc-cidr-assoc-07501b79ecEXAMPLE", "CidrBlock": "10.0.0.0/16", "CidrBlockState": { "State": "associated" } } ], "IsDefault": false, "Tags": [ { "Key": "Name", "Value": MyVpc" } ] } } ``` **Example 2: To create a VPC with dedicated tenancy** The following `create-vpc` example creates a VPC with the specified IPv4 CIDR block and dedicated tenancy. ``` aws ec2 create-vpc \ --cidr-block 10.0.0.0/16 \ --instance-tenancy dedicated ``` Output: ``` { "Vpc": { "CidrBlock": "10.0.0.0/16", "DhcpOptionsId": "dopt-19edf471", "State": "pending", "VpcId": "vpc-0a53287fa4EXAMPLE", "OwnerId": "111122223333", "InstanceTenancy": "dedicated", "Ipv6CidrBlockAssociationSet": [], "CidrBlockAssociationSet": [ { "AssociationId": "vpc-cidr-assoc-00b24cc1c2EXAMPLE", "CidrBlock": "10.0.0.0/16", "CidrBlockState": { "State": "associated" } } ], "IsDefault": false } } ``` **Example 3: To create a VPC with an IPv6 CIDR block** The following `create-vpc` example creates a VPC with an Amazon-provided IPv6 CIDR block. ``` aws ec2 create-vpc \ --cidr-block 10.0.0.0/16 \ --amazon-provided-ipv6-cidr-block ``` Output: ``` { "Vpc": { "CidrBlock": "10.0.0.0/16", "DhcpOptionsId": "dopt-dEXAMPLE", "State": "pending", "VpcId": "vpc-0fc5e3406bEXAMPLE", "OwnerId": "123456789012", "InstanceTenancy": "default", "Ipv6CidrBlockAssociationSet": [ { "AssociationId": "vpc-cidr-assoc-068432c60bEXAMPLE", "Ipv6CidrBlock": "", "Ipv6CidrBlockState": { "State": "associating" }, "Ipv6Pool": "Amazon", "NetworkBorderGroup": "us-west-2" } ], "CidrBlockAssociationSet": [ { "AssociationId": "vpc-cidr-assoc-0669f8f9f5EXAMPLE", "CidrBlock": "10.0.0.0/16", "CidrBlockState": { "State": "associated" } } ], "IsDefault": false } } ``` **Example 4: To create a VPC with a CIDR from an IPAM pool** The following `create-vpc` example creates a VPC with a CIDR from an Amazon VPC IP Address Manager (IPAM) pool. Linux and macOS: ``` aws ec2 create-vpc \ --ipv4-ipam-pool-id ipam-pool-0533048da7d823723 \ --tag-specifications ResourceType=vpc,Tags='[{Key=Environment,Value="Preprod"},{Key=Owner,Value="Build Team"}]' ``` Windows: ``` aws ec2 create-vpc ^ --ipv4-ipam-pool-id ipam-pool-0533048da7d823723 ^ --tag-specifications ResourceType=vpc,Tags=[{Key=Environment,Value="Preprod"},{Key=Owner,Value="Build Team"}] ``` Output: ``` { "Vpc": { "CidrBlock": "10.0.1.0/24", "DhcpOptionsId": "dopt-2afccf50", "State": "pending", "VpcId": "vpc-010e1791024eb0af9", "OwnerId": "123456789012", "InstanceTenancy": "default", "Ipv6CidrBlockAssociationSet": [], "CidrBlockAssociationSet": [ { "AssociationId": "vpc-cidr-assoc-0a77de1d803226d4b", "CidrBlock": "10.0.1.0/24", "CidrBlockState": { "State": "associated" } } ], "IsDefault": false, "Tags": [ { "Key": "Environment", "Value": "Preprod" }, { "Key": "Owner", "Value": "Build Team" } ] } } ``` For more information, see [Create a VPC that uses an IPAM pool CIDR](https://docs.aws.amazon.com/vpc/latest/ipam/create-vpc-ipam.html) in the *Amazon VPC IPAM User Guide*. + For API details, see [CreateVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpc.html) in *AWS CLI Command Reference*. ------ #### [ PHP ] **SDK for PHP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/ec2#code-examples). ``` /** * @param string $cidr * @return array */ public function createVpc(string $cidr): array { try { $result = $this->ec2Client->createVpc([ "CidrBlock" => $cidr, ]); return $result['Vpc']; }catch(Ec2Exception $caught){ echo "There was a problem creating the VPC: {$caught->getAwsErrorMessage()}\n"; throw $caught; } } ``` + For API details, see [CreateVpc](https://docs.aws.amazon.com/goto/SdkForPHPV3/ec2-2016-11-15/CreateVpc) in *AWS SDK for PHP API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a VPC with the specified CIDR. Amazon VPC also creates the following for the VPC: a default DHCP options set, a main route table, and a default network ACL.** ``` New-EC2VPC -CidrBlock 10.0.0.0/16 ``` **Output:** ``` CidrBlock : 10.0.0.0/16 DhcpOptionsId : dopt-1a2b3c4d InstanceTenancy : default IsDefault : False State : pending Tags : {} VpcId : vpc-12345678 ``` + For API details, see [CreateVpc](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a VPC with the specified CIDR. Amazon VPC also creates the following for the VPC: a default DHCP options set, a main route table, and a default network ACL.** ``` New-EC2VPC -CidrBlock 10.0.0.0/16 ``` **Output:** ``` CidrBlock : 10.0.0.0/16 DhcpOptionsId : dopt-1a2b3c4d InstanceTenancy : default IsDefault : False State : pending Tags : {} VpcId : vpc-12345678 ``` + For API details, see [CreateVpc](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class VpcWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Amazon Virtual Private Cloud actions.""" def __init__(self, ec2_client: boto3.client): """ Initializes the VpcWrapper with an EC2 client. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. """ self.ec2_client = ec2_client @classmethod def from_client(cls) -> "VpcWrapper": """ Creates a VpcWrapper instance with a default EC2 client. :return: An instance of VpcWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def create(self, cidr_block: str) -> str: """ Creates a new Amazon VPC with the specified CIDR block. :param cidr_block: The CIDR block for the new VPC, such as '10.0.0.0/16'. :return: The ID of the new VPC. """ try: response = self.ec2_client.create_vpc(CidrBlock=cidr_block) vpc_id = response["Vpc"]["VpcId"] waiter = self.ec2_client.get_waiter("vpc_available") waiter.wait(VpcIds=[vpc_id]) return vpc_id except ClientError as client_error: logging.error( "Couldn't create the vpc. Here's why: %s", client_error.response["Error"]["Message"], ) raise ``` + For API details, see [CreateVpc](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateVpc) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` require 'aws-sdk-ec2' # Creates a virtual private cloud (VPC) in # Amazon Virtual Private Cloud (Amazon VPC) and then tags # the VPC. # # @param ec2_resource [Aws::EC2::Resource] An initialized # Amazon Elastic Compute Cloud (Amazon EC2) resource object. # @param cidr_block [String] The IPv4 CIDR block for the subnet. # @param tag_key [String] The key portion of the tag for the VPC. # @param tag_value [String] The value portion of the tag for the VPC. # @return [Boolean] true if the VPC was created and tagged; # otherwise, false. # @example # exit 1 unless vpc_created_and_tagged?( # Aws::EC2::Resource.new(region: 'us-west-2'), # '10.0.0.0/24', # 'my-key', # 'my-value' # ) def vpc_created_and_tagged?( ec2_resource, cidr_block, tag_key, tag_value ) vpc = ec2_resource.create_vpc(cidr_block: cidr_block) # Create a public DNS by enabling DNS support and DNS hostnames. vpc.modify_attribute(enable_dns_support: { value: true }) vpc.modify_attribute(enable_dns_hostnames: { value: true }) vpc.create_tags(tags: [{ key: tag_key, value: tag_value }]) puts "Created VPC with ID '#{vpc.id}' and tagged with key " \ "'#{tag_key}' and value '#{tag_value}'." true rescue StandardError => e puts e.message false end # Example usage: def run_me cidr_block = '' tag_key = '' tag_value = '' region = '' # Print usage information and then stop. if ARGV[0] == '--help' || ARGV[0] == '-h' puts 'Usage: ruby ec2-ruby-example-create-vpc.rb ' \ 'CIDR_BLOCK TAG_KEY TAG_VALUE REGION' # Replace us-west-2 with the AWS Region you're using for Amazon EC2. puts 'Example: ruby ec2-ruby-example-create-vpc.rb ' \ '10.0.0.0/24 my-key my-value us-west-2' exit 1 # If no values are specified at the command prompt, use these default values. elsif ARGV.count.zero? cidr_block = '10.0.0.0/24' tag_key = 'my-key' tag_value = 'my-value' # Replace us-west-2 with the AWS Region you're using for Amazon EC2. region = 'us-west-2' # Otherwise, use the values as specified at the command prompt. else cidr_block = ARGV[0] tag_key = ARGV[1] tag_value = ARGV[2] region = ARGV[3] end ec2_resource = Aws::EC2::Resource.new(region: region) if vpc_created_and_tagged?( ec2_resource, cidr_block, tag_key, tag_value ) puts 'VPC created and tagged.' else puts 'VPC not created or not tagged.' end end run_me if $PROGRAM_NAME == __FILE__ ``` + For API details, see [CreateVpc](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/CreateVpc) in *AWS SDK for Ruby API Reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` " iv_cidr_block = '10.0.0.0/16' TRY. oo_result = lo_ec2->createvpc( iv_cidrblock = iv_cidr_block ). " oo_result is returned for testing purposes. " DATA(lv_vpc_id) = oo_result->get_vpc( )->get_vpcid( ). MESSAGE 'Created VPC.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [CreateVpc](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateVpcEndpoint` with an AWS SDK or CLI The following code examples show how to use `CreateVpcEndpoint`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ CLI ] **AWS CLI** **Example 1: To create a gateway endpoint** The following `create-vpc-endpoint` example creates a gateway VPC endpoint between VPC `vpc-1a2b3c4d` and Amazon S3 in the `us-east-1` region, and associates route table `rtb-11aa22bb` with the endpoint. ``` aws ec2 create-vpc-endpoint \ --vpc-id vpc-1a2b3c4d \ --service-name com.amazonaws.us-east-1.s3 \ --route-table-ids rtb-11aa22bb ``` Output: ``` { "VpcEndpoint": { "PolicyDocument": "{\"Version\":\"2008-10-17\",\"Statement\":[{\"Sid\":\"\",\"Effect\":\"Allow\",\"Principal\":\"\*\",\"Action\":\"\*\",\"Resource\":\"\*\"}]}", "VpcId": "vpc-1a2b3c4d", "State": "available", "ServiceName": "com.amazonaws.us-east-1.s3", "RouteTableIds": [ "rtb-11aa22bb" ], "VpcEndpointId": "vpc-1a2b3c4d", "CreationTimestamp": "2015-05-15T09:40:50Z" } } ``` For more information, see [Create a gateway endpoint](https://docs.aws.amazon.com/vpc/latest/privatelink/vpc-endpoints-s3.html#create-gateway-endpoint-s3) in the *AWS PrivateLink User Guide*. **Example 2: To create an interface endpoint** The following `create-vpc-endpoint` example creates an interface VPC endpoint between VPC `vpc-1a2b3c4d` and Amazon S3 in the `us-east-1` region. The command creates the endpoint in subnet `subnet-1a2b3c4d`, associates it with security group `sg-1a2b3c4d`, and adds a tag with a key of "Service" and a Value of "S3". ``` aws ec2 create-vpc-endpoint \ --vpc-id vpc-1a2b3c4d \ --vpc-endpoint-type Interface \ --service-name com.amazonaws.us-east-1.s3 \ --subnet-ids subnet-7b16de0c \ --security-group-id sg-1a2b3c4d \ --tag-specifications ResourceType=vpc-endpoint,Tags=[{Key=service,Value=S3}] ``` Output: ``` { "VpcEndpoint": { "VpcEndpointId": "vpce-1a2b3c4d5e6f1a2b3", "VpcEndpointType": "Interface", "VpcId": "vpc-1a2b3c4d", "ServiceName": "com.amazonaws.us-east-1.s3", "State": "pending", "RouteTableIds": [], "SubnetIds": [ "subnet-1a2b3c4d" ], "Groups": [ { "GroupId": "sg-1a2b3c4d", "GroupName": "default" } ], "PrivateDnsEnabled": false, "RequesterManaged": false, "NetworkInterfaceIds": [ "eni-0b16f0581c8ac6877" ], "DnsEntries": [ { "DnsName": "*.vpce-1a2b3c4d5e6f1a2b3-9hnenorg.s3.us-east-1.vpce.amazonaws.com", "HostedZoneId": "Z7HUB22UULQXV" }, { "DnsName": "*.vpce-1a2b3c4d5e6f1a2b3-9hnenorg-us-east-1c.s3.us-east-1.vpce.amazonaws.com", "HostedZoneId": "Z7HUB22UULQXV" } ], "CreationTimestamp": "2021-03-05T14:46:16.030000+00:00", "Tags": [ { "Key": "service", "Value": "S3" } ], "OwnerId": "123456789012" } } ``` For more information, see [Create an interface VPC endpoint](https://docs.aws.amazon.com/vpc/latest/privatelink/create-interface-endpoint.html) in the *AWS PrivateLink User Guide*. **Example 3: To create a Gateway Load Balancer endpoint** The following `create-vpc-endpoint` example creates a Gateway Load Balancer endpoint between VPC `vpc-111122223333aabbc` and and a service that is configured using a Gateway Load Balancer. ``` aws ec2 create-vpc-endpoint \ --service-name com.amazonaws.vpce.us-east-1.vpce-svc-123123a1c43abc123 \ --vpc-endpoint-type GatewayLoadBalancer \ --vpc-id vpc-111122223333aabbc \ --subnet-ids subnet-0011aabbcc2233445 ``` Output: ``` { "VpcEndpoint": { "VpcEndpointId": "vpce-aabbaabbaabbaabba", "VpcEndpointType": "GatewayLoadBalancer", "VpcId": "vpc-111122223333aabbc", "ServiceName": "com.amazonaws.vpce.us-east-1.vpce-svc-123123a1c43abc123", "State": "pending", "SubnetIds": [ "subnet-0011aabbcc2233445" ], "RequesterManaged": false, "NetworkInterfaceIds": [ "eni-01010120203030405" ], "CreationTimestamp": "2020-11-11T08:06:03.522Z", "OwnerId": "123456789012" } } ``` For more information, see [Gateway Load Balancer endpoints](https://docs.aws.amazon.com/vpc/latest/privatelink/gateway-load-balancer-endpoints.html) in the *AWS PrivateLink User Guide*. **Example 4: To create a resource endpoint** The following `create-vpc-endpoint` example creates a resource endpoint. ``` aws ec2 create-vpc-endpoint \ --vpc-endpoint-type Resource \ --vpc-id vpc-111122223333aabbc \ --subnet-ids subnet-0011aabbcc2233445 \ --resource-configuration-arn arn:aws:vpc-lattice-us-east-1:123456789012:resourceconfiguration/rcfg-0123abcde98765432 ``` Output: ``` { "VpcEndpoint": { "VpcEndpointId": "vpce-00939a7ed9EXAMPLE", "VpcEndpointType": "Resource", "VpcId": "vpc-111122223333aabbc", "State": "Pending", "SubnetIds": [ "subnet-0011aabbcc2233445" ], "Groups": [ { "GroupId": "sg-03e2f15fbfc09b000", "GroupName": "default" } ], "IpAddressType": "IPV4", "PrivateDnsEnabled": false, "CreationTimestamp": "2025-02-06T23:38:49.525000+00:00", "Tags": [], "OwnerId": "123456789012", "ResourceConfigurationArn": "arn:aws:vpc-lattice:us-east-1:123456789012:resourceconfiguration/rcfg-0123abcde98765432" } } ``` For more information, see [Resource endpoints](https://docs.aws.amazon.com/vpc/latest/privatelink/privatelink-access-resources.html) in the *AWS PrivateLink User Guide*. **Example 5: To create a service network endpoint** The following `create-vpc-endpoint` example creates a service network endpoint. ``` aws ec2 create-vpc-endpoint \ --vpc-endpoint-type ServiceNetwork \ --vpc-id vpc-111122223333aabbc \ --subnet-ids subnet-0011aabbcc2233445 \ --service-network-arn arn:aws:vpc-lattice:us-east-1:123456789012:servicenetwork/sn-0101abcd5432abcd0 \ --security-group-ids sg-0123456789012abcd ``` Output: ``` { "VpcEndpoint": { "VpcEndpointId": "vpce-0f00567fa8EXAMPLE", "VpcEndpointType": "ServiceNetwork", "VpcId": "vpc-111122223333aabbc", "State": "Pending", "SubnetIds": [ "subnet-0011aabbcc2233445" ], "Groups": [ { "GroupId": "sg-0123456789012abcd", "GroupName": "my-security-group" } ], "IpAddressType": "IPV4", "PrivateDnsEnabled": false, "CreationTimestamp": "2025-02-06T23:44:20.449000+00:00", "Tags": [], "OwnerId": "123456789012", "ServiceNetworkArn": "arn:aws:vpc-lattice:us-east-1:123456789012:servicenetwork/sn-0101abcd5432abcd0" } } ``` For more information, see [Service network endpoints](https://docs.aws.amazon.com/vpc/latest/privatelink/privatelink-access-service-networks.html) in the *AWS PrivateLink User Guide*. + For API details, see [CreateVpcEndpoint](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpc-endpoint.html) in *AWS CLI Command Reference*. ------ #### [ PHP ] **SDK for PHP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/ec2#code-examples). ``` /** * @param string $serviceName * @param string $vpcId * @param array $routeTableIds * @return array */ public function createVpcEndpoint(string $serviceName, string $vpcId, array $routeTableIds): array { try { $result = $this->ec2Client->createVpcEndpoint([ 'ServiceName' => $serviceName, 'VpcId' => $vpcId, 'RouteTableIds' => $routeTableIds, ]); return $result["VpcEndpoint"]; } catch(Ec2Exception $caught){ echo "There was a problem creating the VPC Endpoint: {$caught->getAwsErrorMessage()}\n"; throw $caught; } } ``` + For API details, see [CreateVpcEndpoint](https://docs.aws.amazon.com/goto/SdkForPHPV3/ec2-2016-11-15/CreateVpcEndpoint) in *AWS SDK for PHP API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example create a new VPC Endpoint for the service com.amazonaws.eu-west-1.s3 in the VPC vpc-0fc1ff23f45b678eb** ``` New-EC2VpcEndpoint -ServiceName com.amazonaws.eu-west-1.s3 -VpcId vpc-0fc1ff23f45b678eb ``` **Output:** ``` ClientToken VpcEndpoint ----------- ----------- Amazon.EC2.Model.VpcEndpoint ``` + For API details, see [CreateVpcEndpoint](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example create a new VPC Endpoint for the service com.amazonaws.eu-west-1.s3 in the VPC vpc-0fc1ff23f45b678eb** ``` New-EC2VpcEndpoint -ServiceName com.amazonaws.eu-west-1.s3 -VpcId vpc-0fc1ff23f45b678eb ``` **Output:** ``` ClientToken VpcEndpoint ----------- ----------- Amazon.EC2.Model.VpcEndpoint ``` + For API details, see [CreateVpcEndpoint](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class VpcWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Amazon Virtual Private Cloud actions.""" def __init__(self, ec2_client: boto3.client): """ Initializes the VpcWrapper with an EC2 client. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. """ self.ec2_client = ec2_client @classmethod def from_client(cls) -> "VpcWrapper": """ Creates a VpcWrapper instance with a default EC2 client. :return: An instance of VpcWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def create_vpc_endpoint( self, vpc_id: str, service_name: str, route_table_ids: list[str] ) -> Dict[str, Any]: """ Creates a new VPC endpoint for the specified service and associates it with the specified route tables. :param vpc_id: The ID of the VPC to create the endpoint in. :param service_name: The name of the service to create the endpoint for. :param route_table_ids: A list of IDs of the route tables to associate with the endpoint. :return: A dictionary representing the newly created VPC endpoint. """ try: response = self.ec2_client.create_vpc_endpoint( VpcId=vpc_id, ServiceName=service_name, RouteTableIds=route_table_ids, ) return response["VpcEndpoint"] except ClientError as err: logger.error( "Couldn't create VPC endpoint for service %s. Here's why: %s: %s", service_name, err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise ``` + For API details, see [CreateVpcEndpoint](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/CreateVpcEndpoint) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` " iv_vpc_id = 'vpc-abc123' " iv_service_name = 'com.amazonaws.region.service' TRY. oo_result = lo_ec2->createvpcendpoint( " oo_result is returned for testing purposes. " iv_vpcid = iv_vpc_id iv_servicename = iv_service_name it_routetableids = it_route_table_ids ). DATA(lv_vpc_endpoint_id) = oo_result->get_vpcendpoint( )->get_vpcendpointid( ). MESSAGE 'Created VPC endpoint.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [CreateVpcEndpoint](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateVpnConnection` with a CLI The following code examples show how to use `CreateVpnConnection`. ------ #### [ CLI ] **AWS CLI** **Example 1: To create a VPN connection with dynamic routing** The following `create-vpn-connection` example creates a VPN connection between the specified virtual private gateway and the specified customer gateway, and applies tags to the VPN connection. The output includes the configuration information for your customer gateway device, in XML format. ``` aws ec2 create-vpn-connection \ --type ipsec.1 \ --customer-gateway-id cgw-001122334455aabbc \ --vpn-gateway-id vgw-1a1a1a1a1a1a2b2b2 \ --tag-specification 'ResourceType=vpn-connection,Tags=[{Key=Name,Value=BGP-VPN}]' ``` Output: ``` { "VpnConnection": { "CustomerGatewayConfiguration": "...configuration information...", "CustomerGatewayId": "cgw-001122334455aabbc", "Category": "VPN", "State": "pending", "VpnConnectionId": "vpn-123123123123abcab", "VpnGatewayId": "vgw-1a1a1a1a1a1a2b2b2", "Options": { "EnableAcceleration": false, "StaticRoutesOnly": false, "LocalIpv4NetworkCidr": "0.0.0.0/0", "RemoteIpv4NetworkCidr": "0.0.0.0/0", "TunnelInsideIpVersion": "ipv4", "TunnelOptions": [ {}, {} ] }, "Routes": [], "Tags": [ { "Key": "Name", "Value": "BGP-VPN" } ] } } ``` For more information, see [How AWS Site-to-Site VPN works](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) in the *AWS Site-to-Site VPN User Guide*. **Example 2: To create a VPN connection with static routing** The following `create-vpn-connection` example creates a VPN connection between the specified virtual private gateway and the specified customer gateway. The options specify static routing. The output includes the configuration information for your customer gateway device, in XML format. ``` aws ec2 create-vpn-connection \ --type ipsec.1 \ --customer-gateway-id cgw-001122334455aabbc \ --vpn-gateway-id vgw-1a1a1a1a1a1a2b2b2 \ --options "{\"StaticRoutesOnly\":true}" ``` Output: ``` { "VpnConnection": { "CustomerGatewayConfiguration": "..configuration information...", "CustomerGatewayId": "cgw-001122334455aabbc", "Category": "VPN", "State": "pending", "VpnConnectionId": "vpn-123123123123abcab", "VpnGatewayId": "vgw-1a1a1a1a1a1a2b2b2", "Options": { "EnableAcceleration": false, "StaticRoutesOnly": true, "LocalIpv4NetworkCidr": "0.0.0.0/0", "RemoteIpv4NetworkCidr": "0.0.0.0/0", "TunnelInsideIpVersion": "ipv4", "TunnelOptions": [ {}, {} ] }, "Routes": [], "Tags": [] } } ``` For more information, see [How AWS Site-to-Site VPN works](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) in the *AWS Site-to-Site VPN User Guide*. **Example 3: To create a VPN connection and specify your own inside CIDR and pre-shared key** The following `create-vpn-connection` example creates a VPN connection and specifies the inside IP address CIDR block and a custom pre-shared key for each tunnel. The specified values are returned in the `CustomerGatewayConfiguration` information. ``` aws ec2 create-vpn-connection \ --type ipsec.1 \ --customer-gateway-id cgw-001122334455aabbc \ --vpn-gateway-id vgw-1a1a1a1a1a1a2b2b2 \ --options TunnelOptions='[{TunnelInsideCidr=169.254.12.0/30,PreSharedKey=ExamplePreSharedKey1},{TunnelInsideCidr=169.254.13.0/30,PreSharedKey=ExamplePreSharedKey2}]' ``` Output: ``` { "VpnConnection": { "CustomerGatewayConfiguration": "..configuration information...", "CustomerGatewayId": "cgw-001122334455aabbc", "Category": "VPN", "State": "pending", "VpnConnectionId": "vpn-123123123123abcab", "VpnGatewayId": "vgw-1a1a1a1a1a1a2b2b2", "Options": { "EnableAcceleration": false, "StaticRoutesOnly": false, "LocalIpv4NetworkCidr": "0.0.0.0/0", "RemoteIpv4NetworkCidr": "0.0.0.0/0", "TunnelInsideIpVersion": "ipv4", "TunnelOptions": [ { "OutsideIpAddress": "203.0.113.3", "TunnelInsideCidr": "169.254.12.0/30", "PreSharedKey": "ExamplePreSharedKey1" }, { "OutsideIpAddress": "203.0.113.5", "TunnelInsideCidr": "169.254.13.0/30", "PreSharedKey": "ExamplePreSharedKey2" } ] }, "Routes": [], "Tags": [] } } ``` For more information, see [How AWS Site-to-Site VPN works](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) in the *AWS Site-to-Site VPN User Guide*. **Example 4: To create a VPN connection that supports IPv6 traffic** The following `create-vpn-connection` example creates a VPN connection that supports IPv6 traffic between the specified transit gateway and specified customer gateway. The tunnel options for both tunnels specify that AWS must initiate the IKE negotiation. ``` aws ec2 create-vpn-connection \ --type ipsec.1 \ --transit-gateway-id tgw-12312312312312312 \ --customer-gateway-id cgw-001122334455aabbc \ --options TunnelInsideIpVersion=ipv6,TunnelOptions=[{StartupAction=start},{StartupAction=start}] ``` Output: ``` { "VpnConnection": { "CustomerGatewayConfiguration": "..configuration information...", "CustomerGatewayId": "cgw-001122334455aabbc", "Category": "VPN", "State": "pending", "VpnConnectionId": "vpn-11111111122222222", "TransitGatewayId": "tgw-12312312312312312", "Options": { "EnableAcceleration": false, "StaticRoutesOnly": false, "LocalIpv6NetworkCidr": "::/0", "RemoteIpv6NetworkCidr": "::/0", "TunnelInsideIpVersion": "ipv6", "TunnelOptions": [ { "OutsideIpAddress": "203.0.113.3", "StartupAction": "start" }, { "OutsideIpAddress": "203.0.113.5", "StartupAction": "start" } ] }, "Routes": [], "Tags": [] } } ``` For more information, see [How AWS Site-to-Site VPN works](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) in the *AWS Site-to-Site VPN User Guide*. + For API details, see [CreateVpnConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpn-connection.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a VPN connection between the specified virtual private gateway and the specified customer gateway. The output includes the configuration information that your network administrator needs, in XML format.** ``` New-EC2VpnConnection -Type ipsec.1 -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d ``` **Output:** ``` CustomerGatewayConfiguration : [XML document] CustomerGatewayId : cgw-1a2b3c4d Options : Routes : {} State : pending Tags : {} Type : VgwTelemetry : {} VpnConnectionId : vpn-12345678 VpnGatewayId : vgw-1a2b3c4d ``` **Example 2: This example creates the VPN connection and captures the configuration in a file with the specified name.** ``` (New-EC2VpnConnection -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d).CustomerGatewayConfiguration | Out-File C:\path\vpn-configuration.xml ``` **Example 3: This example creates a VPN connection, with static routing, between the specified virtual private gateway and the specified customer gateway.** ``` New-EC2VpnConnection -Type ipsec.1 -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d -Options_StaticRoutesOnly $true ``` + For API details, see [CreateVpnConnection](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a VPN connection between the specified virtual private gateway and the specified customer gateway. The output includes the configuration information that your network administrator needs, in XML format.** ``` New-EC2VpnConnection -Type ipsec.1 -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d ``` **Output:** ``` CustomerGatewayConfiguration : [XML document] CustomerGatewayId : cgw-1a2b3c4d Options : Routes : {} State : pending Tags : {} Type : VgwTelemetry : {} VpnConnectionId : vpn-12345678 VpnGatewayId : vgw-1a2b3c4d ``` **Example 2: This example creates the VPN connection and captures the configuration in a file with the specified name.** ``` (New-EC2VpnConnection -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d).CustomerGatewayConfiguration | Out-File C:\path\vpn-configuration.xml ``` **Example 3: This example creates a VPN connection, with static routing, between the specified virtual private gateway and the specified customer gateway.** ``` New-EC2VpnConnection -Type ipsec.1 -CustomerGatewayId cgw-1a2b3c4d -VpnGatewayId vgw-1a2b3c4d -Options_StaticRoutesOnly $true ``` + For API details, see [CreateVpnConnection](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateVpnConnectionRoute` with a CLI The following code examples show how to use `CreateVpnConnectionRoute`. ------ #### [ CLI ] **AWS CLI** **To create a static route for a VPN connection** This example creates a static route for the specified VPN connection. If the command succeeds, no output is returned. Command: ``` aws ec2 create-vpn-connection-route --vpn-connection-id vpn-40f41529 --destination-cidr-block 11.12.0.0/16 ``` + For API details, see [CreateVpnConnectionRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpn-connection-route.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates the specified static route for the specified VPN connection.** ``` New-EC2VpnConnectionRoute -VpnConnectionId vpn-12345678 -DestinationCidrBlock 11.12.0.0/16 ``` + For API details, see [CreateVpnConnectionRoute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates the specified static route for the specified VPN connection.** ``` New-EC2VpnConnectionRoute -VpnConnectionId vpn-12345678 -DestinationCidrBlock 11.12.0.0/16 ``` + For API details, see [CreateVpnConnectionRoute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `CreateVpnGateway` with a CLI The following code examples show how to use `CreateVpnGateway`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Get started with Aws Direct Connect](example_directconnect_GettingStarted_051_section.md) ------ #### [ CLI ] **AWS CLI** **To create a virtual private gateway** This example creates a virtual private gateway. Command: ``` aws ec2 create-vpn-gateway --type ipsec.1 ``` Output: ``` { "VpnGateway": { "AmazonSideAsn": 64512, "State": "available", "Type": "ipsec.1", "VpnGatewayId": "vgw-9a4cacf3", "VpcAttachments": [] } } ``` **To create a virtual private gateway with a specific Amazon-side ASN** This example creates a virtual private gateway and specifies the Autonomous System Number (ASN) for the Amazon side of the BGP session. Command: ``` aws ec2 create-vpn-gateway --type ipsec.1 --amazon-side-asn 65001 ``` Output: ``` { "VpnGateway": { "AmazonSideAsn": 65001, "State": "available", "Type": "ipsec.1", "VpnGatewayId": "vgw-9a4cacf3", "VpcAttachments": [] } } ``` + For API details, see [CreateVpnGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/create-vpn-gateway.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates the specified virtual private gateway.** ``` New-EC2VpnGateway -Type ipsec.1 ``` **Output:** ``` AvailabilityZone : State : available Tags : {} Type : ipsec.1 VpcAttachments : {} VpnGatewayId : vgw-1a2b3c4d ``` + For API details, see [CreateVpnGateway](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates the specified virtual private gateway.** ``` New-EC2VpnGateway -Type ipsec.1 ``` **Output:** ``` AvailabilityZone : State : available Tags : {} Type : ipsec.1 VpcAttachments : {} VpnGatewayId : vgw-1a2b3c4d ``` + For API details, see [CreateVpnGateway](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteCustomerGateway` with a CLI The following code examples show how to use `DeleteCustomerGateway`. ------ #### [ CLI ] **AWS CLI** **To delete a customer gateway** This example deletes the specified customer gateway. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-customer-gateway --customer-gateway-id cgw-0e11f167 ``` + For API details, see [DeleteCustomerGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-customer-gateway.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified customer gateway. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2CustomerGateway -CustomerGatewayId cgw-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2CustomerGateway (DeleteCustomerGateway)" on Target "cgw-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteCustomerGateway](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified customer gateway. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2CustomerGateway -CustomerGatewayId cgw-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2CustomerGateway (DeleteCustomerGateway)" on Target "cgw-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteCustomerGateway](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteDhcpOptions` with a CLI The following code examples show how to use `DeleteDhcpOptions`. ------ #### [ CLI ] **AWS CLI** **To delete a DHCP options set** This example deletes the specified DHCP options set. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-dhcp-options --dhcp-options-id dopt-d9070ebb ``` + For API details, see [DeleteDhcpOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-dhcp-options.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified DHCP options set. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2DhcpOption (DeleteDhcpOptions)" on Target "dopt-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteDhcpOptions](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified DHCP options set. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2DhcpOption (DeleteDhcpOptions)" on Target "dopt-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteDhcpOptions](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteFlowLogs` with a CLI The following code examples show how to use `DeleteFlowLogs`. ------ #### [ CLI ] **AWS CLI** **To delete a flow log** The following `delete-flow-logs` example deletes the specified flow log. ``` aws ec2 delete-flow-logs --flow-log-id fl-11223344556677889 ``` Output: ``` { "Unsuccessful": [] } ``` + For API details, see [DeleteFlowLogs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-flow-logs.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example removes the given FlowLogId fl-01a2b3456a789c01** ``` Remove-EC2FlowLog -FlowLogId fl-01a2b3456a789c01 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing the operation "Remove-EC2FlowLog (DeleteFlowLogs)" on target "fl-01a2b3456a789c01". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): Y ``` + For API details, see [DeleteFlowLogs](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example removes the given FlowLogId fl-01a2b3456a789c01** ``` Remove-EC2FlowLog -FlowLogId fl-01a2b3456a789c01 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing the operation "Remove-EC2FlowLog (DeleteFlowLogs)" on target "fl-01a2b3456a789c01". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): Y ``` + For API details, see [DeleteFlowLogs](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteInternetGateway` with a CLI The following code examples show how to use `DeleteInternetGateway`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ CLI ] **AWS CLI** **To delete an internet gateway** The following `delete-internet-gateway` example deletes the specified internet gateway. ``` aws ec2 delete-internet-gateway \ --internet-gateway-id igw-0d0fb496b3EXAMPLE ``` This command produces no output. For more information, see [Internet gateways](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Internet_Gateway.html) in the *Amazon VPC User Guide*. + For API details, see [DeleteInternetGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-internet-gateway.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified Internet gateway. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2InternetGateway (DeleteInternetGateway)" on Target "igw-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteInternetGateway](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified Internet gateway. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2InternetGateway (DeleteInternetGateway)" on Target "igw-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteInternetGateway](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteKeyPair` with an AWS SDK or CLI The following code examples show how to use `DeleteKeyPair`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Creating an Amazon ECS service for the EC2 launch type](example_ecs_GettingStarted_018_section.md) + [Get started with Marketplace Buyer](example_ec2_GettingStarted_030_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Delete an Amazon EC2 key pair. /// /// The name of the key pair to delete. /// A Boolean value indicating the success of the action. public async Task DeleteKeyPair(string keyPairName) { try { await _amazonEC2.DeleteKeyPairAsync(new DeleteKeyPairRequest(keyPairName)).ConfigureAwait(false); return true; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidKeyPair.NotFound") { _logger.LogError($"KeyPair {keyPairName} does not exist and cannot be deleted. Please verify the key pair name and try again."); } return false; } catch (Exception ex) { Console.WriteLine($"Couldn't delete the key pair because: {ex.Message}"); return false; } } /// /// Delete the temporary file where the key pair information was saved. /// /// The path to the temporary file. public void DeleteTempFile(string tempFileName) { if (File.Exists(tempFileName)) { File.Delete(tempFileName); } } ``` + For API details, see [DeleteKeyPair](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteKeyPair) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_delete_keypair # # This function deletes an Amazon EC2 ED25519 or 2048-bit RSA key pair. # # Parameters: # -n key_pair_name - A key pair name. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_delete_keypair() { local key_pair_name response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_delete_keypair" echo "Deletes an Amazon EC2 ED25519 or 2048-bit RSA key pair." echo " -n key_pair_name - A key pair name." echo "" } # Retrieve the calling parameters. while getopts "n:h" option; do case "${option}" in n) key_pair_name="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$key_pair_name" ]]; then errecho "ERROR: You must provide a key pair name with the -n parameter." usage return 1 fi response=$(aws ec2 delete-key-pair \ --key-name "$key_pair_name") || { aws_cli_error_log ${?} errecho "ERROR: AWS reports delete-key-pair operation failed.$response" return 1 } return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [DeleteKeyPair](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteKeyPair) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Delete an Amazon Elastic Compute Cloud (Amazon EC2) instance key pair. /*! \param keyPairName: A name for a key pair. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::deleteKeyPair(const Aws::String &keyPairName, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::DeleteKeyPairRequest request; request.SetKeyName(keyPairName); const Aws::EC2::Model::DeleteKeyPairOutcome outcome = ec2Client.DeleteKeyPair( request); if (!outcome.IsSuccess()) { std::cerr << "Failed to delete key pair " << keyPairName << ":" << outcome.GetError().GetMessage() << std::endl; } else { std::cout << "Successfully deleted key pair named " << keyPairName << std::endl; } return outcome.IsSuccess(); } ``` + For API details, see [DeleteKeyPair](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DeleteKeyPair) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **To delete a key pair** The following `delete-key-pair` example deletes the specified key pair. ``` aws ec2 delete-key-pair \ --key-name my-key-pair ``` Output: ``` { "Return": true, "KeyPairId": "key-03c8d3aceb53b507" } ``` For more information, see [Create and delete key pairs](https://docs.aws.amazon.com/cli/latest/userguide/cli-ec2-keypairs.html) in the *AWS Command Line Interface User Guide*. + For API details, see [DeleteKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-key-pair.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Deletes a key pair asynchronously. * * @param keyPair the name of the key pair to delete * @return a {@link CompletableFuture} that represents the result of the asynchronous operation. * The {@link CompletableFuture} will complete with a {@link DeleteKeyPairResponse} object * that provides the result of the key pair deletion operation. */ public CompletableFuture deleteKeysAsync(String keyPair) { DeleteKeyPairRequest request = DeleteKeyPairRequest.builder() .keyName(keyPair) .build(); // Initiate the asynchronous request to delete the key pair. CompletableFuture response = getAsyncClient().deleteKeyPair(request); return response.whenComplete((resp, ex) -> { if (ex != null) { throw new RuntimeException("Failed to delete key pair: " + keyPair, ex); } else if (resp == null) { throw new RuntimeException("No response received for deleting key pair: " + keyPair); } }); } ``` + For API details, see [DeleteKeyPair](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteKeyPair) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { DeleteKeyPairCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * Deletes the specified key pair, by removing the public key from Amazon EC2. * @param {{ keyName: string }} options */ export const main = async ({ keyName }) => { const client = new EC2Client({}); const command = new DeleteKeyPairCommand({ KeyName: keyName, }); try { await client.send(command); console.log("Successfully deleted key pair."); } catch (caught) { if (caught instanceof Error && caught.name === "MissingParameter") { console.warn(`${caught.message}. Did you provide the required value?`); } else { throw caught; } } }; ``` + For API details, see [DeleteKeyPair](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteKeyPairCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun deleteKeys(keyPair: String?) { val request = DeleteKeyPairRequest { keyName = keyPair } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.deleteKeyPair(request) println("Successfully deleted key pair named $keyPair") } } ``` + For API details, see [DeleteKeyPair](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified key pair. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2KeyPair -KeyName my-key-pair ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2KeyPair (DeleteKeyPair)" on Target "my-key-pair". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteKeyPair](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified key pair. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2KeyPair -KeyName my-key-pair ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2KeyPair (DeleteKeyPair)" on Target "my-key-pair". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteKeyPair](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class KeyPairWrapper: """ Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) key pair actions. This class provides methods to create, list, and delete EC2 key pairs. """ def __init__( self, ec2_client: boto3.client, key_file_dir: Union[tempfile.TemporaryDirectory, str], key_pair: Optional[dict] = None, ): """ Initializes the KeyPairWrapper with the specified EC2 client, key file directory, and an optional key pair. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param key_file_dir: The folder where the private key information is stored. This should be a secure folder. :param key_pair: A dictionary representing the Boto3 KeyPair object. This is a high-level object that wraps key pair actions. Optional. """ self.ec2_client = ec2_client self.key_pair = key_pair self.key_file_path: Optional[str] = None self.key_file_dir = key_file_dir @classmethod def from_client(cls) -> "KeyPairWrapper": """ Class method to create an instance of KeyPairWrapper using a new EC2 client and a temporary directory for storing key files. :return: An instance of KeyPairWrapper. """ ec2_client = boto3.client("ec2") return cls(ec2_client, tempfile.TemporaryDirectory()) def delete(self, key_name: str) -> bool: """ Deletes a key pair by its name. :param key_name: The name of the key pair to delete. :return: A boolean indicating whether the deletion was successful. :raises ClientError: If there is an error in deleting the key pair, for example, if the key pair does not exist. """ try: self.ec2_client.delete_key_pair(KeyName=key_name) logger.info(f"Successfully deleted key pair: {key_name}") self.key_pair = None return True except self.ec2_client.exceptions.ClientError as err: logger.error(f"Deletion failed for key pair: {key_name}") error_code = err.response["Error"]["Code"] if error_code == "InvalidKeyPair.NotFound": logger.error( f"The key pair '{key_name}' does not exist and cannot be deleted. " "Please verify the key pair name and try again." ) raise ``` + For API details, see [DeleteKeyPair](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteKeyPair) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). Wrapper around delete\$1key that also removes the backing private PEM key. ``` pub async fn delete(self, ec2: &EC2, util: &Util) -> Result<(), EC2Error> { if let Some(key_name) = self.key_pair.key_name() { ec2.delete_key_pair(key_name).await?; if let Some(key_path) = self.key_file_path() { if let Err(err) = util.remove(key_path) { eprintln!("Failed to remove {key_path:?} ({err:?})"); } } } Ok(()) } ``` ``` pub async fn delete_key_pair(&self, key_name: &str) -> Result<(), EC2Error> { let key_name: String = key_name.into(); tracing::info!("Deleting key pair {key_name}"); self.client .delete_key_pair() .key_name(key_name) .send() .await?; Ok(()) } ``` + For API details, see [DeleteKeyPair](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_key_pair) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. lo_ec2->deletekeypair( iv_keyname = iv_key_name ). MESSAGE 'Amazon EC2 key pair deleted.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DeleteKeyPair](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Delete an EC2 key pair. /// /// - Parameter keyPair: The name of the key pair to delete. /// /// - Returns: `true` if the key pair is deleted successfully; otherwise /// `false`. func deleteKeyPair(keyPair: String) async -> Bool { do { _ = try await ec2Client.deleteKeyPair( input: DeleteKeyPairInput( keyName: keyPair ) ) return true } catch { print("*** Error deleting the key pair: \(error.localizedDescription)") return false } } ``` + For API details, see [DeleteKeyPair](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/deletekeypair(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteLaunchTemplate` with an AWS SDK or CLI The following code examples show how to use `DeleteLaunchTemplate`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Build and manage a resilient service](example_cross_ResilientService_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). ``` /// /// Delete a launch template by name. /// /// The name of the template to delete. /// Async task. public async Task DeleteTemplateByName(string templateName) { try { await _amazonEc2.DeleteLaunchTemplateAsync( new DeleteLaunchTemplateRequest() { LaunchTemplateName = templateName }); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidLaunchTemplateName.NotFoundException") { _logger.LogError( $"Could not delete the template, the name {_launchTemplateName} was not found."); } throw; } catch (Exception ex) { _logger.LogError($"An error occurred while deleting the template.: {ex.Message}"); throw; } } ``` + For API details, see [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteLaunchTemplate) in *AWS SDK for .NET API Reference*. ------ #### [ CLI ] **AWS CLI** **To delete a launch template** This example deletes the specified launch template. Command: ``` aws ec2 delete-launch-template --launch-template-id lt-0abcd290751193123 ``` Output: ``` { "LaunchTemplate": { "LatestVersionNumber": 2, "LaunchTemplateId": "lt-0abcd290751193123", "LaunchTemplateName": "TestTemplate", "DefaultVersionNumber": 2, "CreatedBy": "arn:aws:iam::123456789012:root", "CreateTime": "2017-11-23T16:46:25.000Z" } } ``` + For API details, see [DeleteLaunchTemplate](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-launch-template.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). ``` await client.send( new DeleteLaunchTemplateCommand({ LaunchTemplateName: NAMES.launchTemplateName, }), ); ``` + For API details, see [DeleteLaunchTemplate](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteLaunchTemplateCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class AutoScalingWrapper: """ Encapsulates Amazon EC2 Auto Scaling and EC2 management actions. """ def __init__( self, resource_prefix: str, inst_type: str, ami_param: str, autoscaling_client: boto3.client, ec2_client: boto3.client, ssm_client: boto3.client, iam_client: boto3.client, ): """ Initializes the AutoScaler class with the necessary parameters. :param resource_prefix: The prefix for naming AWS resources that are created by this class. :param inst_type: The type of EC2 instance to create, such as t3.micro. :param ami_param: The Systems Manager parameter used to look up the AMI that is created. :param autoscaling_client: A Boto3 EC2 Auto Scaling client. :param ec2_client: A Boto3 EC2 client. :param ssm_client: A Boto3 Systems Manager client. :param iam_client: A Boto3 IAM client. """ self.inst_type = inst_type self.ami_param = ami_param self.autoscaling_client = autoscaling_client self.ec2_client = ec2_client self.ssm_client = ssm_client self.iam_client = iam_client sts_client = boto3.client("sts") self.account_id = sts_client.get_caller_identity()["Account"] self.key_pair_name = f"{resource_prefix}-key-pair" self.launch_template_name = f"{resource_prefix}-template-" self.group_name = f"{resource_prefix}-group" # Happy path self.instance_policy_name = f"{resource_prefix}-pol" self.instance_role_name = f"{resource_prefix}-role" self.instance_profile_name = f"{resource_prefix}-prof" # Failure mode self.bad_creds_policy_name = f"{resource_prefix}-bc-pol" self.bad_creds_role_name = f"{resource_prefix}-bc-role" self.bad_creds_profile_name = f"{resource_prefix}-bc-prof" def delete_template(self): """ Deletes a launch template. """ try: self.ec2_client.delete_launch_template( LaunchTemplateName=self.launch_template_name ) self.delete_instance_profile( self.instance_profile_name, self.instance_role_name ) log.info("Launch template %s deleted.", self.launch_template_name) except ClientError as err: if ( err.response["Error"]["Code"] == "InvalidLaunchTemplateName.NotFoundException" ): log.info( "Launch template %s does not exist, nothing to do.", self.launch_template_name, ) log.error(f"Full error:\n\t{err}") ``` + For API details, see [DeleteLaunchTemplate](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteLaunchTemplate) in *AWS SDK for Python (Boto3) API Reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteNetworkAcl` with a CLI The following code examples show how to use `DeleteNetworkAcl`. ------ #### [ CLI ] **AWS CLI** **To delete a network ACL** This example deletes the specified network ACL. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-network-acl --network-acl-id acl-5fb85d36 ``` + For API details, see [DeleteNetworkAcl](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-network-acl.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified network ACL. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2NetworkAcl -NetworkAclId acl-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2NetworkAcl (DeleteNetworkAcl)" on Target "acl-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteNetworkAcl](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified network ACL. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2NetworkAcl -NetworkAclId acl-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2NetworkAcl (DeleteNetworkAcl)" on Target "acl-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteNetworkAcl](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteNetworkAclEntry` with a CLI The following code examples show how to use `DeleteNetworkAclEntry`. ------ #### [ CLI ] **AWS CLI** **To delete a network ACL entry** This example deletes ingress rule number 100 from the specified network ACL. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-network-acl-entry --network-acl-id acl-5fb85d36 --ingress --rule-number 100 ``` + For API details, see [DeleteNetworkAclEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-network-acl-entry.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example removes the specified rule from the specified network ACL. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2NetworkAclEntry (DeleteNetworkAclEntry)" on Target "acl-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteNetworkAclEntry](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example removes the specified rule from the specified network ACL. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2NetworkAclEntry (DeleteNetworkAclEntry)" on Target "acl-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteNetworkAclEntry](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteNetworkInterface` with a CLI The following code examples show how to use `DeleteNetworkInterface`. ------ #### [ CLI ] **AWS CLI** **To delete a network interface** This example deletes the specified network interface. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-network-interface --network-interface-id eni-e5aa89a3 ``` + For API details, see [DeleteNetworkInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-network-interface.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified network interface. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2NetworkInterface -NetworkInterfaceId eni-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2NetworkInterface (DeleteNetworkInterface)" on Target "eni-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteNetworkInterface](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified network interface. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2NetworkInterface -NetworkInterfaceId eni-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2NetworkInterface (DeleteNetworkInterface)" on Target "eni-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteNetworkInterface](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeletePlacementGroup` with a CLI The following code examples show how to use `DeletePlacementGroup`. ------ #### [ CLI ] **AWS CLI** **To delete a placement group** This example command deletes the specified placement group. Command: ``` aws ec2 delete-placement-group --group-name my-cluster ``` + For API details, see [DeletePlacementGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-placement-group.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified placement group. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2PlacementGroup -GroupName my-placement-group ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2PlacementGroup (DeletePlacementGroup)" on Target "my-placement-group". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeletePlacementGroup](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified placement group. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2PlacementGroup -GroupName my-placement-group ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2PlacementGroup (DeletePlacementGroup)" on Target "my-placement-group". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeletePlacementGroup](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteRoute` with a CLI The following code examples show how to use `DeleteRoute`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Getting started with Amazon VPC Transit Gateway](example_vpc_TransitGatewayGettingStarted_section.md) ------ #### [ CLI ] **AWS CLI** **To delete a route** This example deletes the specified route from the specified route table. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-route --route-table-id rtb-22574640 --destination-cidr-block 0.0.0.0/0 ``` + For API details, see [DeleteRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-route.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified route from the specified route table. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 0.0.0.0/0 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2Route (DeleteRoute)" on Target "rtb-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteRoute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified route from the specified route table. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 0.0.0.0/0 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2Route (DeleteRoute)" on Target "rtb-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteRoute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteRouteTable` with a CLI The following code examples show how to use `DeleteRouteTable`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) + [Working with VPC peering connections](example_ec2_GettingStarted_015_section.md) ------ #### [ CLI ] **AWS CLI** **To delete a route table** This example deletes the specified route table. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-route-table --route-table-id rtb-22574640 ``` + For API details, see [DeleteRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-route-table.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified route table. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2RouteTable -RouteTableId rtb-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2RouteTable (DeleteRouteTable)" on Target "rtb-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteRouteTable](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified route table. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2RouteTable -RouteTableId rtb-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2RouteTable (DeleteRouteTable)" on Target "rtb-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteRouteTable](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteSecurityGroup` with an AWS SDK or CLI The following code examples show how to use `DeleteSecurityGroup`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Configure Amazon ECS Service Connect](example_ecs_ServiceConnect_085_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Create an Amazon ECS Linux task for the Fargate launch type](example_ecs_GettingStarted_086_section.md) + [Creating an Amazon ECS service for the EC2 launch type](example_ecs_GettingStarted_018_section.md) + [Creating an Amazon RDS DB instance](example_rds_GettingStarted_036_section.md) + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Get started with Marketplace Buyer](example_ec2_GettingStarted_030_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [Getting started with Elastic Load Balancing](example_elastic_load_balancing_v2_GettingStarted_058_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Delete an Amazon EC2 security group. /// /// The name of the group to delete. /// A Boolean value indicating the success of the action. public async Task DeleteSecurityGroup(string groupId) { try { var response = await _amazonEC2.DeleteSecurityGroupAsync( new DeleteSecurityGroupRequest { GroupId = groupId }); return response.HttpStatusCode == HttpStatusCode.OK; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidGroup.NotFound") { _logger.LogError( $"Security Group {groupId} does not exist and cannot be deleted. Please verify the ID and try again."); } return false; } catch (Exception ex) { Console.WriteLine($"Couldn't delete the security group because: {ex.Message}"); return false; } } ``` + For API details, see [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DeleteSecurityGroup) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_delete_security_group # # This function deletes an Amazon Elastic Compute Cloud (Amazon EC2) security group. # # Parameters: # -i security_group_id - The ID of the security group to delete. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_delete_security_group() { local security_group_id response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_delete_security_group" echo "Deletes an Amazon Elastic Compute Cloud (Amazon EC2) security group." echo " -i security_group_id - The ID of the security group to delete." echo "" } # Retrieve the calling parameters. while getopts "i:h" option; do case "${option}" in i) security_group_id="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$security_group_id" ]]; then errecho "ERROR: You must provide a security group ID with the -i parameter." usage return 1 fi response=$(aws ec2 delete-security-group --group-id "$security_group_id" --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports delete-security-group operation failed.$response" return 1 } return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DeleteSecurityGroup) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Delete a security group. /*! \param securityGroupID: A security group ID. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::deleteSecurityGroup(const Aws::String &securityGroupID, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::DeleteSecurityGroupRequest request; request.SetGroupId(securityGroupID); Aws::EC2::Model::DeleteSecurityGroupOutcome outcome = ec2Client.DeleteSecurityGroup(request); if (!outcome.IsSuccess()) { std::cerr << "Failed to delete security group " << securityGroupID << ":" << outcome.GetError().GetMessage() << std::endl; } else { std::cout << "Successfully deleted security group " << securityGroupID << std::endl; } return outcome.IsSuccess(); } ``` + For API details, see [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DeleteSecurityGroup) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **[EC2-Classic] To delete a security group** This example deletes the security group named `MySecurityGroup`. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-security-group --group-name MySecurityGroup ``` **[EC2-VPC] To delete a security group** This example deletes the security group with the ID `sg-903004f8`. Note that you can't reference a security group for EC2-VPC by name. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-security-group --group-id sg-903004f8 ``` For more information, see Using Security Groups in the *AWS Command Line Interface User Guide*. + For API details, see [DeleteSecurityGroup](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-security-group.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Deletes an EC2 security group asynchronously. * * @param groupId the ID of the security group to delete * @return a CompletableFuture that completes when the security group is deleted */ public CompletableFuture deleteEC2SecGroupAsync(String groupId) { DeleteSecurityGroupRequest request = DeleteSecurityGroupRequest.builder() .groupId(groupId) .build(); CompletableFuture response = getAsyncClient().deleteSecurityGroup(request); return response.whenComplete((resp, ex) -> { if (ex != null) { throw new RuntimeException("Failed to delete security group with Id " + groupId, ex); } else if (resp == null) { throw new RuntimeException("No response received for deleting security group with Id " + groupId); } }).thenApply(resp -> null); } ``` + For API details, see [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DeleteSecurityGroup) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { DeleteSecurityGroupCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * Deletes a security group. * @param {{ groupId: string }} options */ export const main = async ({ groupId }) => { const client = new EC2Client({}); const command = new DeleteSecurityGroupCommand({ GroupId: groupId, }); try { await client.send(command); console.log("Security group deleted successfully."); } catch (caught) { if (caught instanceof Error && caught.name === "InvalidGroupId.Malformed") { console.warn(`${caught.message}. Please provide a valid GroupId.`); } else { throw caught; } } }; ``` + For API details, see [DeleteSecurityGroup](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DeleteSecurityGroupCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun deleteEC2SecGroup(groupIdVal: String) { val request = DeleteSecurityGroupRequest { groupId = groupIdVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.deleteSecurityGroup(request) println("Successfully deleted Security Group with id $groupIdVal") } } ``` + For API details, see [DeleteSecurityGroup](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified security group for EC2-VPC. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2SecurityGroup -GroupId sg-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2SecurityGroup (DeleteSecurityGroup)" on Target "sg-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` **Example 2: This example deletes the specified security group for EC2-Classic.** ``` Remove-EC2SecurityGroup -GroupName my-security-group -Force ``` + For API details, see [DeleteSecurityGroup](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified security group for EC2-VPC. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2SecurityGroup -GroupId sg-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2SecurityGroup (DeleteSecurityGroup)" on Target "sg-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` **Example 2: This example deletes the specified security group for EC2-Classic.** ``` Remove-EC2SecurityGroup -GroupName my-security-group -Force ``` + For API details, see [DeleteSecurityGroup](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class SecurityGroupWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) security group actions.""" def __init__(self, ec2_client: boto3.client, security_group: Optional[str] = None): """ Initializes the SecurityGroupWrapper with an EC2 client and an optional security group ID. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param security_group: The ID of a security group to manage. This is a high-level identifier that represents the security group. """ self.ec2_client = ec2_client self.security_group = security_group @classmethod def from_client(cls) -> "SecurityGroupWrapper": """ Creates a SecurityGroupWrapper instance with a default EC2 client. :return: An instance of SecurityGroupWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def delete(self, security_group_id: str) -> bool: """ Deletes the specified security group. :param security_group_id: The ID of the security group to delete. Required. :returns: True if the deletion is successful. :raises ClientError: If the security group cannot be deleted due to an AWS service error. """ try: self.ec2_client.delete_security_group(GroupId=security_group_id) logger.info(f"Successfully deleted security group '{security_group_id}'") return True except ClientError as err: logger.error(f"Deletion failed for security group '{security_group_id}'") error_code = err.response["Error"]["Code"] if error_code == "InvalidGroup.NotFound": logger.error( f"Security group '{security_group_id}' cannot be deleted because it does not exist." ) elif error_code == "DependencyViolation": logger.error( f"Security group '{security_group_id}' cannot be deleted because it is still in use." " Verify that it is:" "\n\t- Detached from resources" "\n\t- Removed from references in other groups" "\n\t- Removed from VPC's as a default group" ) raise ``` + For API details, see [DeleteSecurityGroup](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteSecurityGroup) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn delete_security_group(&self, group_id: &str) -> Result<(), EC2Error> { tracing::info!("Deleting security group {group_id}"); self.client .delete_security_group() .group_id(group_id) .send() .await?; Ok(()) } ``` + For API details, see [DeleteSecurityGroup](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_security_group) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. lo_ec2->deletesecuritygroup( iv_groupid = iv_security_group_id ). MESSAGE 'Security group deleted.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DeleteSecurityGroup](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Delete a security group. /// /// - Parameter groupId: The ID of the security group to delete. /// /// - Returns: `true` on successful deletion; `false` on error. func deleteSecurityGroup(groupId: String) async -> Bool { do { _ = try await ec2Client.deleteSecurityGroup( input: DeleteSecurityGroupInput( groupId: groupId ) ) return true } catch { print("*** Error deleting the security group: \(error.localizedDescription)") return false } } ``` + For API details, see [DeleteSecurityGroup](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/deletesecuritygroup(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteSnapshot` with an AWS SDK or CLI The following code examples show how to use `DeleteSnapshot`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Working with Amazon EBS encryption, snapshots, and volume initialization](example_ec2_GettingStarted_022_section.md) ------ #### [ CLI ] **AWS CLI** **To delete a snapshot** This example command deletes a snapshot with the snapshot ID of `snap-1234567890abcdef0`. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-snapshot --snapshot-id snap-1234567890abcdef0 ``` + For API details, see [DeleteSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-snapshot.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified snapshot. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2Snapshot -SnapshotId snap-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing the operation "Remove-EC2Snapshot (DeleteSnapshot)" on target "snap-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteSnapshot](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified snapshot. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2Snapshot -SnapshotId snap-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing the operation "Remove-EC2Snapshot (DeleteSnapshot)" on target "snap-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteSnapshot](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples). ``` async fn delete_snapshot(client: &Client, id: &str) -> Result<(), Error> { client.delete_snapshot().snapshot_id(id).send().await?; println!("Deleted"); Ok(()) } ``` + For API details, see [DeleteSnapshot](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.delete_snapshot) in *AWS SDK for Rust API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteSpotDatafeedSubscription` with a CLI The following code examples show how to use `DeleteSpotDatafeedSubscription`. ------ #### [ CLI ] **AWS CLI** **To cancel a Spot Instance data feed subscription** This example command deletes a Spot data feed subscription for the account. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-spot-datafeed-subscription ``` + For API details, see [DeleteSpotDatafeedSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-spot-datafeed-subscription.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes your Spot instance data feed. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2SpotDatafeedSubscription ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2SpotDatafeedSubscription (DeleteSpotDatafeedSubscription)" on Target "". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes your Spot instance data feed. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2SpotDatafeedSubscription ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2SpotDatafeedSubscription (DeleteSpotDatafeedSubscription)" on Target "". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteSubnet` with a CLI The following code examples show how to use `DeleteSubnet`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) + [Working with VPC peering connections](example_ec2_GettingStarted_015_section.md) ------ #### [ CLI ] **AWS CLI** **To delete a subnet** This example deletes the specified subnet. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-subnet --subnet-id subnet-9d4a7b6c ``` + For API details, see [DeleteSubnet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-subnet.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified subnet. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2Subnet -SubnetId subnet-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2Subnet (DeleteSubnet)" on Target "subnet-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteSubnet](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified subnet. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2Subnet -SubnetId subnet-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2Subnet (DeleteSubnet)" on Target "subnet-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteSubnet](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteTags` with a CLI The following code examples show how to use `DeleteTags`. ------ #### [ CLI ] **AWS CLI** **Example 1: To delete a tag from a resource** The following `delete-tags` example deletes the tag `Stack=Test` from the specified image. When you specify both a value and a key name, the tag is deleted only if the tag's value matches the specified value. ``` aws ec2 delete-tags \ --resources ami-1234567890abcdef0 \ --tags Key=Stack,Value=Test ``` It's optional to specify the value for a tag. The following `delete-tags` example deletes the tag with the key name `purpose` from the specified instance, regardless of the tag value for the tag. ``` aws ec2 delete-tags \ --resources i-1234567890abcdef0 \ --tags Key=purpose ``` If you specify the empty string as the tag value, the tag is deleted only if the tag's value is the empty string. The following `delete-tags` example specifies the empty string as the tag value for the tag to delete. ``` aws ec2 delete-tags \ --resources i-1234567890abcdef0 \ --tags Key=Name,Value= ``` **Example 2: To delete a tag from multiple resources** The following `delete-tags` example deletes the tag``Purpose=Test`` from both an instance and an AMI. As shown in the previous example, you can omit the tag value from the command. ``` aws ec2 delete-tags \ --resources i-1234567890abcdef0 ami-1234567890abcdef0 \ --tags Key=Purpose ``` + For API details, see [DeleteTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-tags.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified tag from the specified resource, regardless of the tag value. The syntax used by this example requires PowerShell version 3 or later.** ``` Remove-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag" } -Force ``` **Example 2: This example deletes the specified tag from the specified resource, but only if the tag value matches. The syntax used by this example requires PowerShell version 3 or later.** ``` Remove-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag";Value="myTagValue" } -Force ``` **Example 3: This example deletes the specified tag from the specified resource, regardless of the tag value.** ``` $tag = New-Object Amazon.EC2.Model.Tag $tag.Key = "myTag" Remove-EC2Tag -Resource i-12345678 -Tag $tag -Force ``` **Example 4: This example deletes the specified tag from the specified resource, but only if the tag value matches.** ``` $tag = New-Object Amazon.EC2.Model.Tag $tag.Key = "myTag" $tag.Value = "myTagValue" Remove-EC2Tag -Resource i-12345678 -Tag $tag -Force ``` + For API details, see [DeleteTags](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified tag from the specified resource, regardless of the tag value. The syntax used by this example requires PowerShell version 3 or later.** ``` Remove-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag" } -Force ``` **Example 2: This example deletes the specified tag from the specified resource, but only if the tag value matches. The syntax used by this example requires PowerShell version 3 or later.** ``` Remove-EC2Tag -Resource i-12345678 -Tag @{ Key="myTag";Value="myTagValue" } -Force ``` **Example 3: This example deletes the specified tag from the specified resource, regardless of the tag value.** ``` $tag = New-Object Amazon.EC2.Model.Tag $tag.Key = "myTag" Remove-EC2Tag -Resource i-12345678 -Tag $tag -Force ``` **Example 4: This example deletes the specified tag from the specified resource, but only if the tag value matches.** ``` $tag = New-Object Amazon.EC2.Model.Tag $tag.Key = "myTag" $tag.Value = "myTagValue" Remove-EC2Tag -Resource i-12345678 -Tag $tag -Force ``` + For API details, see [DeleteTags](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteVolume` with a CLI The following code examples show how to use `DeleteVolume`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Working with Amazon EBS encryption, snapshots, and volume initialization](example_ec2_GettingStarted_022_section.md) ------ #### [ CLI ] **AWS CLI** **To delete a volume** This example command deletes an available volume with the volume ID of `vol-049df61146c4d7901`. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-volume --volume-id vol-049df61146c4d7901 ``` + For API details, see [DeleteVolume](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-volume.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example detaches the specified volume. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2Volume -VolumeId vol-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing the operation "Remove-EC2Volume (DeleteVolume)" on target "vol-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteVolume](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example detaches the specified volume. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2Volume -VolumeId vol-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing the operation "Remove-EC2Volume (DeleteVolume)" on target "vol-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteVolume](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteVpc` with an AWS SDK or CLI The following code examples show how to use `DeleteVpc`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [VPC with IPAM](example_vpc_GettingStartedIpam_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) + [Working with VPC peering connections](example_ec2_GettingStarted_015_section.md) ------ #### [ CLI ] **AWS CLI** **To delete a VPC** This example deletes the specified VPC. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-vpc --vpc-id vpc-a01106c2 ``` + For API details, see [DeleteVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpc.html) in *AWS CLI Command Reference*. ------ #### [ PHP ] **SDK for PHP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/ec2#code-examples). ``` /** * @param string $vpcId * @return void */ public function deleteVpc(string $vpcId) { try { $this->ec2Client->deleteVpc([ "VpcId" => $vpcId, ]); }catch(Ec2Exception $caught){ echo "There was a problem deleting the VPC: {$caught->getAwsErrorMessage()}\n"; throw $caught; } } ``` + For API details, see [DeleteVpc](https://docs.aws.amazon.com/goto/SdkForPHPV3/ec2-2016-11-15/DeleteVpc) in *AWS SDK for PHP API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified VPC. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2Vpc -VpcId vpc-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2Vpc (DeleteVpc)" on Target "vpc-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteVpc](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified VPC. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2Vpc -VpcId vpc-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2Vpc (DeleteVpc)" on Target "vpc-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteVpc](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class VpcWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Amazon Virtual Private Cloud actions.""" def __init__(self, ec2_client: boto3.client): """ Initializes the VpcWrapper with an EC2 client. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. """ self.ec2_client = ec2_client @classmethod def from_client(cls) -> "VpcWrapper": """ Creates a VpcWrapper instance with a default EC2 client. :return: An instance of VpcWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def delete(self, vpc_id: str) -> None: """ Deletes the specified VPC. :param vpc_id: The ID of the VPC to delete. """ try: self.ec2_client.delete_vpc(VpcId=vpc_id) except ClientError as err: logger.error( "Couldn't delete VPC %s. Here's why: %s: %s", vpc_id, err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise ``` + For API details, see [DeleteVpc](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteVpc) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. lo_ec2->deletevpc( iv_vpcid = iv_vpc_id ). MESSAGE 'Deleted VPC.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DeleteVpc](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteVpcEndpoints` with an AWS SDK or CLI The following code examples show how to use `DeleteVpcEndpoints`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ CLI ] **AWS CLI** **To delete an endpoint** This example deletes endpoints vpce-aa22bb33 and vpce-1a2b3c4d. If the command is partially successful or unsuccessful, a list of unsuccessful items is returned. If the command succeeds, the returned list is empty. Command: ``` aws ec2 delete-vpc-endpoints --vpc-endpoint-ids vpce-aa22bb33 vpce-1a2b3c4d ``` Output: ``` { "Unsuccessful": [] } ``` + For API details, see [DeleteVpcEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpc-endpoints.html) in *AWS CLI Command Reference*. ------ #### [ PHP ] **SDK for PHP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/ec2#code-examples). ``` /** * @param string $vpcEndpointId * @return void */ public function deleteVpcEndpoint(string $vpcEndpointId) { try { $this->ec2Client->deleteVpcEndpoints([ "VpcEndpointIds" => [$vpcEndpointId], ]); }catch (Ec2Exception $caught){ echo "There was a problem deleting the VPC Endpoint: {$caught->getAwsErrorMessage()}\n"; throw $caught; } } ``` + For API details, see [DeleteVpcEndpoints](https://docs.aws.amazon.com/goto/SdkForPHPV3/ec2-2016-11-15/DeleteVpcEndpoints) in *AWS SDK for PHP API Reference*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class VpcWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Amazon Virtual Private Cloud actions.""" def __init__(self, ec2_client: boto3.client): """ Initializes the VpcWrapper with an EC2 client. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. """ self.ec2_client = ec2_client @classmethod def from_client(cls) -> "VpcWrapper": """ Creates a VpcWrapper instance with a default EC2 client. :return: An instance of VpcWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def delete_vpc_endpoints(self, vpc_endpoint_ids: list[str]) -> None: """ Deletes the specified VPC endpoints. :param vpc_endpoint_ids: A list of IDs of the VPC endpoints to delete. """ try: self.ec2_client.delete_vpc_endpoints(VpcEndpointIds=vpc_endpoint_ids) except ClientError as err: logger.error( "Couldn't delete VPC endpoints %s. Here's why: %s: %s", vpc_endpoint_ids, err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise ``` + For API details, see [DeleteVpcEndpoints](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DeleteVpcEndpoints) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. lo_ec2->deletevpcendpoints( it_vpcendpointids = it_vpc_endpoint_ids ). MESSAGE 'Deleted VPC endpoint(s).' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DeleteVpcEndpoints](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteVpnConnection` with a CLI The following code examples show how to use `DeleteVpnConnection`. ------ #### [ CLI ] **AWS CLI** **To delete a VPN connection** This example deletes the specified VPN connection. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-vpn-connection --vpn-connection-id vpn-40f41529 ``` + For API details, see [DeleteVpnConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpn-connection.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified VPN connection. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2VpnConnection -VpnConnectionId vpn-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2VpnConnection (DeleteVpnConnection)" on Target "vpn-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteVpnConnection](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified VPN connection. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2VpnConnection -VpnConnectionId vpn-12345678 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2VpnConnection (DeleteVpnConnection)" on Target "vpn-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteVpnConnection](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteVpnConnectionRoute` with a CLI The following code examples show how to use `DeleteVpnConnectionRoute`. ------ #### [ CLI ] **AWS CLI** **To delete a static route from a VPN connection** This example deletes the specified static route from the specified VPN connection. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-vpn-connection-route --vpn-connection-id vpn-40f41529 --destination-cidr-block 11.12.0.0/16 ``` + For API details, see [DeleteVpnConnectionRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpn-connection-route.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example removes the specified static route from the specified VPN connection. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2VpnConnectionRoute -VpnConnectionId vpn-12345678 -DestinationCidrBlock 11.12.0.0/16 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2VpnConnectionRoute (DeleteVpnConnectionRoute)" on Target "vpn-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteVpnConnectionRoute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example removes the specified static route from the specified VPN connection. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2VpnConnectionRoute -VpnConnectionId vpn-12345678 -DestinationCidrBlock 11.12.0.0/16 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2VpnConnectionRoute (DeleteVpnConnectionRoute)" on Target "vpn-12345678". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteVpnConnectionRoute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeleteVpnGateway` with a CLI The following code examples show how to use `DeleteVpnGateway`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Get started with Aws Direct Connect](example_directconnect_GettingStarted_051_section.md) ------ #### [ CLI ] **AWS CLI** **To delete a virtual private gateway** This example deletes the specified virtual private gateway. If the command succeeds, no output is returned. Command: ``` aws ec2 delete-vpn-gateway --vpn-gateway-id vgw-9a4cacf3 ``` + For API details, see [DeleteVpnGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/delete-vpn-gateway.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deletes the specified virtual private gateway. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2VpnGateway (DeleteVpnGateway)" on Target "vgw-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteVpnGateway](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deletes the specified virtual private gateway. You are prompted for confirmation before the operation proceeds, unless you also specify the Force parameter.** ``` Remove-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing operation "Remove-EC2VpnGateway (DeleteVpnGateway)" on Target "vgw-1a2b3c4d". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): ``` + For API details, see [DeleteVpnGateway](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DeregisterImage` with a CLI The following code examples show how to use `DeregisterImage`. ------ #### [ CLI ] **AWS CLI** **To deregister an AMI** This example deregisters the specified AMI. If the command succeeds, no output is returned. Command: ``` aws ec2 deregister-image --image-id ami-4fa54026 ``` + For API details, see [DeregisterImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/deregister-image.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example deregisters the specified AMI.** ``` Unregister-EC2Image -ImageId ami-12345678 ``` + For API details, see [DeregisterImage](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example deregisters the specified AMI.** ``` Unregister-EC2Image -ImageId ami-12345678 ``` + For API details, see [DeregisterImage](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeAccountAttributes` with a CLI The following code examples show how to use `DescribeAccountAttributes`. ------ #### [ CLI ] **AWS CLI** **To describe all the attributes for your AWS account** This example describes the attributes for your AWS account. Command: ``` aws ec2 describe-account-attributes ``` Output: ``` { "AccountAttributes": [ { "AttributeName": "vpc-max-security-groups-per-interface", "AttributeValues": [ { "AttributeValue": "5" } ] }, { "AttributeName": "max-instances", "AttributeValues": [ { "AttributeValue": "20" } ] }, { "AttributeName": "supported-platforms", "AttributeValues": [ { "AttributeValue": "EC2" }, { "AttributeValue": "VPC" } ] }, { "AttributeName": "default-vpc", "AttributeValues": [ { "AttributeValue": "none" } ] }, { "AttributeName": "max-elastic-ips", "AttributeValues": [ { "AttributeValue": "5" } ] }, { "AttributeName": "vpc-max-elastic-ips", "AttributeValues": [ { "AttributeValue": "5" } ] } ] } ``` **To describe a single attribute for your AWS account** This example describes the `supported-platforms` attribute for your AWS account. Command: ``` aws ec2 describe-account-attributes --attribute-names supported-platforms ``` Output: ``` { "AccountAttributes": [ { "AttributeName": "supported-platforms", "AttributeValues": [ { "AttributeValue": "EC2" }, { "AttributeValue": "VPC" } ] } ] } ``` + For API details, see [DescribeAccountAttributes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-account-attributes.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes whether you can launch instances into EC2-Classic and EC2-VPC in the region, or only into EC2-VPC.** ``` (Get-EC2AccountAttribute -AttributeName supported-platforms).AttributeValues ``` **Output:** ``` AttributeValue -------------- EC2 VPC ``` **Example 2: This example describes your default VPC, or is 'none' if you do not have a default VPC in the region.** ``` (Get-EC2AccountAttribute -AttributeName default-vpc).AttributeValues ``` **Output:** ``` AttributeValue -------------- vpc-12345678 ``` **Example 3: This example describes the maximum number of On-Demand instances that you can run.** ``` (Get-EC2AccountAttribute -AttributeName max-instances).AttributeValues ``` **Output:** ``` AttributeValue -------------- 20 ``` + For API details, see [DescribeAccountAttributes](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes whether you can launch instances into EC2-Classic and EC2-VPC in the region, or only into EC2-VPC.** ``` (Get-EC2AccountAttribute -AttributeName supported-platforms).AttributeValues ``` **Output:** ``` AttributeValue -------------- EC2 VPC ``` **Example 2: This example describes your default VPC, or is 'none' if you do not have a default VPC in the region.** ``` (Get-EC2AccountAttribute -AttributeName default-vpc).AttributeValues ``` **Output:** ``` AttributeValue -------------- vpc-12345678 ``` **Example 3: This example describes the maximum number of On-Demand instances that you can run.** ``` (Get-EC2AccountAttribute -AttributeName max-instances).AttributeValues ``` **Output:** ``` AttributeValue -------------- 20 ``` + For API details, see [DescribeAccountAttributes](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeAddresses` with an AWS SDK or CLI The following code examples show how to use `DescribeAddresses`. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Describe all Elastic IP addresses. /*! \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::describeAddresses( const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::DescribeAddressesRequest request; Aws::EC2::Model::DescribeAddressesOutcome outcome = ec2Client.DescribeAddresses(request); if (outcome.IsSuccess()) { std::cout << std::left << std::setw(20) << "InstanceId" << std::setw(15) << "Public IP" << std::setw(10) << "Domain" << std::setw(30) << "Allocation ID" << std::setw(25) << "NIC ID" << std::endl; const Aws::Vector &addresses = outcome.GetResult().GetAddresses(); for (const auto &address: addresses) { Aws::String domainString = Aws::EC2::Model::DomainTypeMapper::GetNameForDomainType( address.GetDomain()); std::cout << std::left << std::setw(20) << address.GetInstanceId() << std::setw(15) << address.GetPublicIp() << std::setw(10) << domainString << std::setw(30) << address.GetAllocationId() << std::setw(25) << address.GetNetworkInterfaceId() << std::endl; } } else { std::cerr << "Failed to describe Elastic IP addresses:" << outcome.GetError().GetMessage() << std::endl; } return outcome.IsSuccess(); } ``` + For API details, see [DescribeAddresses](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeAddresses) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To retrieve details about all of your Elastic IP addresses** The following `describe addresses` example displays details about your Elastic IP addresses. ``` aws ec2 describe-addresses ``` Output: ``` { "Addresses": [ { "InstanceId": "i-1234567890abcdef0", "PublicIp": "198.51.100.0", "PublicIpv4Pool": "amazon", "Domain": "standard" }, { "Domain": "vpc", "PublicIpv4Pool": "amazon", "InstanceId": "i-1234567890abcdef0", "NetworkInterfaceId": "eni-12345678", "AssociationId": "eipassoc-12345678", "NetworkInterfaceOwnerId": "123456789012", "PublicIp": "203.0.113.0", "AllocationId": "eipalloc-12345678", "PrivateIpAddress": "10.0.1.241" } ] } ``` **Example 2: To retrieve details your Elastic IP addresses for EC2-VPC** The following `describe-addresses` example displays details about your Elastic IP addresses for use with instances in a VPC. ``` aws ec2 describe-addresses \ --filters "Name=domain,Values=vpc" ``` Output: ``` { "Addresses": [ { "Domain": "vpc", "PublicIpv4Pool": "amazon", "InstanceId": "i-1234567890abcdef0", "NetworkInterfaceId": "eni-12345678", "AssociationId": "eipassoc-12345678", "NetworkInterfaceOwnerId": "123456789012", "PublicIp": "203.0.113.0", "AllocationId": "eipalloc-12345678", "PrivateIpAddress": "10.0.1.241" } ] } ``` **Example 3: To retrieve details about an Elastic IP address specified by allocation ID** The following `describe-addresses` example displays details about the Elastic IP address with the specified allocation ID, which is associated with an instance in EC2-VPC. ``` aws ec2 describe-addresses \ --allocation-ids eipalloc-282d9641 ``` Output: ``` { "Addresses": [ { "Domain": "vpc", "PublicIpv4Pool": "amazon", "InstanceId": "i-1234567890abcdef0", "NetworkInterfaceId": "eni-1a2b3c4d", "AssociationId": "eipassoc-123abc12", "NetworkInterfaceOwnerId": "1234567891012", "PublicIp": "203.0.113.25", "AllocationId": "eipalloc-282d9641", "PrivateIpAddress": "10.251.50.12" } ] } ``` **Example 4: To retrieve details about an Elastic IP address specified by its VPC private IP address** The following `describe-addresses` example displays details about the Elastic IP address associated with a particular private IP address in EC2-VPC. ``` aws ec2 describe-addresses \ --filters "Name=private-ip-address,Values=10.251.50.12" ``` **Example 5: To retrieve details about Elastic IP addresses in EC2-Classic** The following `describe-addresses` example displays details about your Elastic IP addresses for use in EC2-Classic. ``` aws ec2 describe-addresses \ --filters "Name=domain,Values=standard" ``` Output: ``` { "Addresses": [ { "InstanceId": "i-1234567890abcdef0", "PublicIp": "203.0.110.25", "PublicIpv4Pool": "amazon", "Domain": "standard" } ] } ``` **Example 6: To retrieve details about an Elastic IP addresses specified by its public IP address** The following `describe-addresses` example displays details about the Elastic IP address with the value `203.0.110.25`, which is associated with an instance in EC2-Classic. ``` aws ec2 describe-addresses \ --public-ips 203.0.110.25 ``` Output: ``` { "Addresses": [ { "InstanceId": "i-1234567890abcdef0", "PublicIp": "203.0.110.25", "PublicIpv4Pool": "amazon", "Domain": "standard" } ] } ``` + For API details, see [DescribeAddresses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-addresses.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { DescribeAddressesCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * Describes the specified Elastic IP addresses or all of your Elastic IP addresses. * @param {{ allocationId: string }} options */ export const main = async ({ allocationId }) => { const client = new EC2Client({}); const command = new DescribeAddressesCommand({ // You can omit this property to show all addresses. AllocationIds: [allocationId], }); try { const { Addresses } = await client.send(command); const addressList = Addresses.map((address) => ` • ${address.PublicIp}`); console.log("Elastic IP addresses:"); console.log(addressList.join("\n")); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidAllocationID.NotFound" ) { console.warn(`${caught.message}. Please provide a valid AllocationId.`); } else { throw caught; } } }; ``` + For API details, see [DescribeAddresses](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeAddressesCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified Elastic IP address for instances in EC2-Classic.** ``` Get-EC2Address -AllocationId eipalloc-12345678 ``` **Output:** ``` AllocationId : eipalloc-12345678 AssociationId : eipassoc-12345678 Domain : vpc InstanceId : i-87654321 NetworkInterfaceId : eni-12345678 NetworkInterfaceOwnerId : 12345678 PrivateIpAddress : 10.0.2.172 PublicIp : 198.51.100.2 ``` **Example 2: This example describes your Elastic IP addresses for instances in a VPC. This syntax requires PowerShell version 3 or later.** ``` Get-EC2Address -Filter @{ Name="domain";Values="vpc" } ``` **Example 3: This example describes the specified Elastic IP address for instances in EC2-Classic.** ``` Get-EC2Address -PublicIp 203.0.113.17 ``` **Output:** ``` AllocationId : AssociationId : Domain : standard InstanceId : i-12345678 NetworkInterfaceId : NetworkInterfaceOwnerId : PrivateIpAddress : PublicIp : 203.0.113.17 ``` **Example 4: This example describes your Elastic IP addresses for instances in EC2-Classic. This syntax requires PowerShell version 3 or later.** ``` Get-EC2Address -Filter @{ Name="domain";Values="standard" } ``` **Example 5: This example describes all your Elastic IP addresses.** ``` Get-EC2Address ``` **Example 6: This example returns the public and private IP for the instance id provided in filter** ``` Get-EC2Address -Region eu-west-1 -Filter @{Name="instance-id";Values="i-0c12d3f4f567ffb89"} | Select-Object PrivateIpAddress, PublicIp ``` **Output:** ``` PrivateIpAddress PublicIp ---------------- -------- 10.0.0.99 63.36.5.227 ``` **Example 7: This example retrieves all the Elastic IPs with its allocation id, association id and instance ids** ``` Get-EC2Address -Region eu-west-1 | Select-Object InstanceId, AssociationId, AllocationId, PublicIp ``` **Output:** ``` InstanceId AssociationId AllocationId PublicIp ---------- ------------- ------------ -------- eipalloc-012e3b456789e1fad 17.212.120.178 i-0c123dfd3415bac67 eipassoc-0e123456bb7890bdb eipalloc-01cd23ebf45f7890c 17.212.124.77 eipalloc-012345678eeabcfad 17.212.225.7 i-0123d405c67e89a0c eipassoc-0c123b456783966ba eipalloc-0123cdd456a8f7892 37.216.52.173 i-0f1bf2f34c5678d09 eipassoc-0e12934568a952d96 eipalloc-0e1c23e4d5e6789e4 37.218.222.278 i-012e3cb4df567e8aa eipassoc-0d1b2fa4d67d03810 eipalloc-0123f456f78a01b58 37.210.82.27 i-0123bcf4b567890e1 eipassoc-01d2345f678903fb1 eipalloc-0e1db23cfef5c45c7 37.215.222.270 ``` **Example 8: This example fetches list of EC2 IP addresses matching tag key 'Category' with value 'Prod'** ``` Get-EC2Address -Filter @{Name="tag:Category";Values="Prod"} ``` **Output:** ``` AllocationId : eipalloc-0123f456f81a01b58 AssociationId : eipassoc-0d1b23a456d103810 CustomerOwnedIp : CustomerOwnedIpv4Pool : Domain : vpc InstanceId : i-012e3cb4df567e1aa NetworkBorderGroup : eu-west-1 NetworkInterfaceId : eni-0123f41d5a60d5f40 NetworkInterfaceOwnerId : 123456789012 PrivateIpAddress : 192.168.1.84 PublicIp : 34.250.81.29 PublicIpv4Pool : amazon Tags : {Category, Name} ``` + For API details, see [DescribeAddresses](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified Elastic IP address for instances in EC2-Classic.** ``` Get-EC2Address -AllocationId eipalloc-12345678 ``` **Output:** ``` AllocationId : eipalloc-12345678 AssociationId : eipassoc-12345678 Domain : vpc InstanceId : i-87654321 NetworkInterfaceId : eni-12345678 NetworkInterfaceOwnerId : 12345678 PrivateIpAddress : 10.0.2.172 PublicIp : 198.51.100.2 ``` **Example 2: This example describes your Elastic IP addresses for instances in a VPC. This syntax requires PowerShell version 3 or later.** ``` Get-EC2Address -Filter @{ Name="domain";Values="vpc" } ``` **Example 3: This example describes the specified Elastic IP address for instances in EC2-Classic.** ``` Get-EC2Address -PublicIp 203.0.113.17 ``` **Output:** ``` AllocationId : AssociationId : Domain : standard InstanceId : i-12345678 NetworkInterfaceId : NetworkInterfaceOwnerId : PrivateIpAddress : PublicIp : 203.0.113.17 ``` **Example 4: This example describes your Elastic IP addresses for instances in EC2-Classic. This syntax requires PowerShell version 3 or later.** ``` Get-EC2Address -Filter @{ Name="domain";Values="standard" } ``` **Example 5: This example describes all your Elastic IP addresses.** ``` Get-EC2Address ``` **Example 6: This example returns the public and private IP for the instance id provided in filter** ``` Get-EC2Address -Region eu-west-1 -Filter @{Name="instance-id";Values="i-0c12d3f4f567ffb89"} | Select-Object PrivateIpAddress, PublicIp ``` **Output:** ``` PrivateIpAddress PublicIp ---------------- -------- 10.0.0.99 63.36.5.227 ``` **Example 7: This example retrieves all the Elastic IPs with its allocation id, association id and instance ids** ``` Get-EC2Address -Region eu-west-1 | Select-Object InstanceId, AssociationId, AllocationId, PublicIp ``` **Output:** ``` InstanceId AssociationId AllocationId PublicIp ---------- ------------- ------------ -------- eipalloc-012e3b456789e1fad 17.212.120.178 i-0c123dfd3415bac67 eipassoc-0e123456bb7890bdb eipalloc-01cd23ebf45f7890c 17.212.124.77 eipalloc-012345678eeabcfad 17.212.225.7 i-0123d405c67e89a0c eipassoc-0c123b456783966ba eipalloc-0123cdd456a8f7892 37.216.52.173 i-0f1bf2f34c5678d09 eipassoc-0e12934568a952d96 eipalloc-0e1c23e4d5e6789e4 37.218.222.278 i-012e3cb4df567e8aa eipassoc-0d1b2fa4d67d03810 eipalloc-0123f456f78a01b58 37.210.82.27 i-0123bcf4b567890e1 eipassoc-01d2345f678903fb1 eipalloc-0e1db23cfef5c45c7 37.215.222.270 ``` **Example 8: This example fetches list of EC2 IP addresses matching tag key 'Category' with value 'Prod'** ``` Get-EC2Address -Filter @{Name="tag:Category";Values="Prod"} ``` **Output:** ``` AllocationId : eipalloc-0123f456f81a01b58 AssociationId : eipassoc-0d1b23a456d103810 CustomerOwnedIp : CustomerOwnedIpv4Pool : Domain : vpc InstanceId : i-012e3cb4df567e1aa NetworkBorderGroup : eu-west-1 NetworkInterfaceId : eni-0123f41d5a60d5f40 NetworkInterfaceOwnerId : 123456789012 PrivateIpAddress : 192.168.1.84 PublicIp : 34.250.81.29 PublicIpv4Pool : amazon Tags : {Category, Name} ``` + For API details, see [DescribeAddresses](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. oo_result = lo_ec2->describeaddresses( ). " oo_result is returned for testing purposes. " DATA(lt_addresses) = oo_result->get_addresses( ). MESSAGE 'Retrieved information about Elastic IP addresses.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DescribeAddresses](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeAvailabilityZones` with an AWS SDK or CLI The following code examples show how to use `DescribeAvailabilityZones`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Build and manage a resilient service](example_cross_ResilientService_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [Getting started with Amazon VPC Transit Gateway](example_vpc_TransitGatewayGettingStarted_section.md) + [Getting started with Elemental MediaConnect](example_mediaconnect_GettingStarted_081_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) + [Working with Amazon EBS encryption, snapshots, and volume initialization](example_ec2_GettingStarted_022_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). ``` /// /// Get a list of Availability Zones in the AWS Region of the Amazon EC2 Client. /// /// A list of availability zones. public async Task> DescribeAvailabilityZones() { try { var zoneResponse = await _amazonEc2.DescribeAvailabilityZonesAsync( new DescribeAvailabilityZonesRequest()); return zoneResponse.AvailabilityZones.Select(z => z.ZoneName).ToList(); } catch (AmazonEC2Exception ec2Exception) { _logger.LogError($"An Amazon EC2 error occurred while listing availability zones.: {ec2Exception.Message}"); throw; } catch (Exception ex) { _logger.LogError($"An error occurred while listing availability zones.: {ex.Message}"); throw; } } ``` + For API details, see [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeAvailabilityZones) in *AWS SDK for .NET API Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! DescribeAvailabilityZones /*! \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ int AwsDoc::EC2::describeAvailabilityZones(const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::DescribeAvailabilityZonesRequest request; Aws::EC2::Model::DescribeAvailabilityZonesOutcome outcome = ec2Client.DescribeAvailabilityZones(request); if (outcome.IsSuccess()) { std::cout << std::left << std::setw(32) << "ZoneName" << std::setw(20) << "State" << std::setw(32) << "Region" << std::endl; const auto &zones = outcome.GetResult().GetAvailabilityZones(); for (const auto &zone: zones) { Aws::String stateString = Aws::EC2::Model::AvailabilityZoneStateMapper::GetNameForAvailabilityZoneState( zone.GetState()); std::cout << std::left << std::setw(32) << zone.GetZoneName() << std::setw(20) << stateString << std::setw(32) << zone.GetRegionName() << std::endl; } } else { std::cerr << "Failed to describe availability zones:" << outcome.GetError().GetMessage() << std::endl; } return outcome.IsSuccess(); } ``` + For API details, see [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeAvailabilityZones) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **To describe your Availability Zones** The following example `describe-availability-zones` displays details for the Availability Zones that are available to you. The response includes Availability Zones only for the current Region. In this example, it uses the profiles default `us-west-2` (Oregon) Region. ``` aws ec2 describe-availability-zones ``` Output: ``` { "AvailabilityZones": [ { "State": "available", "OptInStatus": "opt-in-not-required", "Messages": [], "RegionName": "us-west-2", "ZoneName": "us-west-2a", "ZoneId": "usw2-az1", "GroupName": "us-west-2", "NetworkBorderGroup": "us-west-2" }, { "State": "available", "OptInStatus": "opt-in-not-required", "Messages": [], "RegionName": "us-west-2", "ZoneName": "us-west-2b", "ZoneId": "usw2-az2", "GroupName": "us-west-2", "NetworkBorderGroup": "us-west-2" }, { "State": "available", "OptInStatus": "opt-in-not-required", "Messages": [], "RegionName": "us-west-2", "ZoneName": "us-west-2c", "ZoneId": "usw2-az3", "GroupName": "us-west-2", "NetworkBorderGroup": "us-west-2" }, { "State": "available", "OptInStatus": "opt-in-not-required", "Messages": [], "RegionName": "us-west-2", "ZoneName": "us-west-2d", "ZoneId": "usw2-az4", "GroupName": "us-west-2", "NetworkBorderGroup": "us-west-2" }, { "State": "available", "OptInStatus": "opted-in", "Messages": [], "RegionName": "us-west-2", "ZoneName": "us-west-2-lax-1a", "ZoneId": "usw2-lax1-az1", "GroupName": "us-west-2-lax-1", "NetworkBorderGroup": "us-west-2-lax-1" } ] } ``` + For API details, see [DescribeAvailabilityZones](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-availability-zones.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the Availability Zones for the current region that are available to you.** ``` Get-EC2AvailabilityZone ``` **Output:** ``` Messages RegionName State ZoneName -------- ---------- ----- -------- {} us-west-2 available us-west-2a {} us-west-2 available us-west-2b {} us-west-2 available us-west-2c ``` **Example 2: This example describes any Availability Zones that are in an impaired state. The syntax used by this example requires PowerShell version 3 or higher.** ``` Get-EC2AvailabilityZone -Filter @{ Name="state";Values="impaired" } ``` **Example 3: With PowerShell version 2, you must use New-Object to create the filter.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "state" $filter.Values = "impaired" Get-EC2AvailabilityZone -Filter $filter ``` + For API details, see [DescribeAvailabilityZones](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the Availability Zones for the current region that are available to you.** ``` Get-EC2AvailabilityZone ``` **Output:** ``` Messages RegionName State ZoneName -------- ---------- ----- -------- {} us-west-2 available us-west-2a {} us-west-2 available us-west-2b {} us-west-2 available us-west-2c ``` **Example 2: This example describes any Availability Zones that are in an impaired state. The syntax used by this example requires PowerShell version 3 or higher.** ``` Get-EC2AvailabilityZone -Filter @{ Name="state";Values="impaired" } ``` **Example 3: With PowerShell version 2, you must use New-Object to create the filter.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "state" $filter.Values = "impaired" Get-EC2AvailabilityZone -Filter $filter ``` + For API details, see [DescribeAvailabilityZones](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class AutoScalingWrapper: """ Encapsulates Amazon EC2 Auto Scaling and EC2 management actions. """ def __init__( self, resource_prefix: str, inst_type: str, ami_param: str, autoscaling_client: boto3.client, ec2_client: boto3.client, ssm_client: boto3.client, iam_client: boto3.client, ): """ Initializes the AutoScaler class with the necessary parameters. :param resource_prefix: The prefix for naming AWS resources that are created by this class. :param inst_type: The type of EC2 instance to create, such as t3.micro. :param ami_param: The Systems Manager parameter used to look up the AMI that is created. :param autoscaling_client: A Boto3 EC2 Auto Scaling client. :param ec2_client: A Boto3 EC2 client. :param ssm_client: A Boto3 Systems Manager client. :param iam_client: A Boto3 IAM client. """ self.inst_type = inst_type self.ami_param = ami_param self.autoscaling_client = autoscaling_client self.ec2_client = ec2_client self.ssm_client = ssm_client self.iam_client = iam_client sts_client = boto3.client("sts") self.account_id = sts_client.get_caller_identity()["Account"] self.key_pair_name = f"{resource_prefix}-key-pair" self.launch_template_name = f"{resource_prefix}-template-" self.group_name = f"{resource_prefix}-group" # Happy path self.instance_policy_name = f"{resource_prefix}-pol" self.instance_role_name = f"{resource_prefix}-role" self.instance_profile_name = f"{resource_prefix}-prof" # Failure mode self.bad_creds_policy_name = f"{resource_prefix}-bc-pol" self.bad_creds_role_name = f"{resource_prefix}-bc-role" self.bad_creds_profile_name = f"{resource_prefix}-bc-prof" def get_availability_zones(self) -> List[str]: """ Gets a list of Availability Zones in the AWS Region of the Amazon EC2 client. :return: The list of Availability Zones for the client Region. """ try: response = self.ec2_client.describe_availability_zones() zones = [zone["ZoneName"] for zone in response["AvailabilityZones"]] log.info(f"Retrieved {len(zones)} availability zones: {zones}.") except ClientError as err: log.error("Failed to retrieve availability zones.") log.error(f"Full error:\n\t{err}") else: return zones ``` + For API details, see [DescribeAvailabilityZones](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeAvailabilityZones) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. oo_result = lo_ec2->describeavailabilityzones( ). " oo_result is returned for testing purposes. " DATA(lt_zones) = oo_result->get_availabilityzones( ). MESSAGE 'Retrieved information about Availability Zones.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DescribeAvailabilityZones](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeBundleTasks` with a CLI The following code examples show how to use `DescribeBundleTasks`. ------ #### [ CLI ] **AWS CLI** **To describe your bundle tasks** This example describes all of your bundle tasks. Command: ``` aws ec2 describe-bundle-tasks ``` Output: ``` { "BundleTasks": [ { "UpdateTime": "2015-09-15T13:26:54.000Z", "InstanceId": "i-1234567890abcdef0", "Storage": { "S3": { "Prefix": "winami", "Bucket": "bundletasks" } }, "State": "bundling", "StartTime": "2015-09-15T13:24:35.000Z", "Progress": "3%", "BundleId": "bun-2a4e041c" } ] } ``` + For API details, see [DescribeBundleTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-bundle-tasks.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified bundle task.** ``` Get-EC2BundleTask -BundleId bun-12345678 ``` **Example 2: This example describes the bundle tasks whose state is either 'complete' or 'failed'.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "state" $filter.Values = @( "complete", "failed" ) Get-EC2BundleTask -Filter $filter ``` + For API details, see [DescribeBundleTasks](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified bundle task.** ``` Get-EC2BundleTask -BundleId bun-12345678 ``` **Example 2: This example describes the bundle tasks whose state is either 'complete' or 'failed'.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "state" $filter.Values = @( "complete", "failed" ) Get-EC2BundleTask -Filter $filter ``` + For API details, see [DescribeBundleTasks](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeCapacityReservations` with a CLI The following code examples show how to use `DescribeCapacityReservations`. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe one or more of your capacity reservations** The following `describe-capacity-reservations` example displays details about all of your capacity reservations in the current AWS Region. ``` aws ec2 describe-capacity-reservations ``` Output: ``` { "CapacityReservations": [ { "CapacityReservationId": "cr-1234abcd56EXAMPLE ", "OwnerId": "123456789111", "CapacityReservationArn": "arn:aws:ec2:us-east-1:123456789111:capacity-reservation/cr-1234abcd56EXAMPLE", "AvailabilityZoneId": "use1-az2", "InstanceType": "c5.large", "InstancePlatform": "Linux/UNIX", "AvailabilityZone": "us-east-1a", "Tenancy": "default", "TotalInstanceCount": 1, "AvailableInstanceCount": 1, "EbsOptimized": true, "EphemeralStorage": false, "State": "active", "StartDate": "2024-10-23T15:00:24+00:00", "EndDateType": "unlimited", "InstanceMatchCriteria": "open", "CreateDate": "2024-10-23T15:00:24+00:00", "Tags": [], "CapacityAllocations": [] }, { "CapacityReservationId": "cr-abcdEXAMPLE9876ef ", "OwnerId": "123456789111", "CapacityReservationArn": "arn:aws:ec2:us-east-1:123456789111:capacity-reservation/cr-abcdEXAMPLE9876ef", "AvailabilityZoneId": "use1-az2", "InstanceType": "c4.large", "InstancePlatform": "Linux/UNIX", "AvailabilityZone": "us-east-1a", "Tenancy": "default", "TotalInstanceCount": 1, "AvailableInstanceCount": 1, "EbsOptimized": true, "EphemeralStorage": false, "State": "cancelled", "StartDate": "2024-10-23T15:01:03+00:00", "EndDateType": "unlimited", "InstanceMatchCriteria": "open", "CreateDate": "2024-10-23T15:01:02+00:00", "Tags": [], "CapacityAllocations": [] } ] } ``` **Example 2: To describe one or more of your capacity reservations** The following `describe-capacity-reservations` example displays details about the specified capacity reservation. ``` aws ec2 describe-capacity-reservations \ --capacity-reservation-ids cr-1234abcd56EXAMPLE ``` Output: ``` { "CapacityReservations": [ { "CapacityReservationId": "cr-abcdEXAMPLE9876ef ", "OwnerId": "123456789111", "CapacityReservationArn": "arn:aws:ec2:us-east-1:123456789111:capacity-reservation/cr-abcdEXAMPLE9876ef", "AvailabilityZoneId": "use1-az2", "InstanceType": "c4.large", "InstancePlatform": "Linux/UNIX", "AvailabilityZone": "us-east-1a", "Tenancy": "default", "TotalInstanceCount": 1, "AvailableInstanceCount": 1, "EbsOptimized": true, "EphemeralStorage": false, "State": "active", "StartDate": "2024-10-23T15:01:03+00:00", "EndDateType": "unlimited", "InstanceMatchCriteria": "open", "CreateDate": "2024-10-23T15:01:02+00:00", "Tags": [], "CapacityAllocations": [] } ] } ``` For more information, see [Viewing a Capacity Reservation](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-using.html#capacity-reservations-view) in the *Amazon Elastic Compute Cloud User Guide for Linux Instances*. + For API details, see [DescribeCapacityReservations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-capacity-reservations.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes one or more of your Capacity Reservations for the region** ``` Get-EC2CapacityReservation -Region eu-west-1 ``` **Output:** ``` AvailabilityZone : eu-west-1b AvailableInstanceCount : 2 CapacityReservationId : cr-0c1f2345db6f7cdba CreateDate : 3/28/2019 9:29:41 AM EbsOptimized : True EndDate : 1/1/0001 12:00:00 AM EndDateType : unlimited EphemeralStorage : False InstanceMatchCriteria : open InstancePlatform : Windows InstanceType : m4.xlarge State : active Tags : {} Tenancy : default TotalInstanceCount : 2 ``` + For API details, see [DescribeCapacityReservations](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes one or more of your Capacity Reservations for the region** ``` Get-EC2CapacityReservation -Region eu-west-1 ``` **Output:** ``` AvailabilityZone : eu-west-1b AvailableInstanceCount : 2 CapacityReservationId : cr-0c1f2345db6f7cdba CreateDate : 3/28/2019 9:29:41 AM EbsOptimized : True EndDate : 1/1/0001 12:00:00 AM EndDateType : unlimited EphemeralStorage : False InstanceMatchCriteria : open InstancePlatform : Windows InstanceType : m4.xlarge State : active Tags : {} Tenancy : default TotalInstanceCount : 2 ``` + For API details, see [DescribeCapacityReservations](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeCustomerGateways` with a CLI The following code examples show how to use `DescribeCustomerGateways`. ------ #### [ CLI ] **AWS CLI** **To describe your customer gateways** This example describes your customer gateways. Command: ``` aws ec2 describe-customer-gateways ``` Output: ``` { "CustomerGateways": [ { "CustomerGatewayId": "cgw-b4dc3961", "IpAddress": "203.0.113.12", "State": "available", "Type": "ipsec.1", "BgpAsn": "65000" }, { "CustomerGatewayId": "cgw-0e11f167", "IpAddress": "12.1.2.3", "State": "available", "Type": "ipsec.1", "BgpAsn": "65534" } ] } ``` **To describe a specific customer gateway** This example describes the specified customer gateway. Command: ``` aws ec2 describe-customer-gateways --customer-gateway-ids cgw-0e11f167 ``` Output: ``` { "CustomerGateways": [ { "CustomerGatewayId": "cgw-0e11f167", "IpAddress": "12.1.2.3", "State": "available", "Type": "ipsec.1", "BgpAsn": "65534" } ] } ``` + For API details, see [DescribeCustomerGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-customer-gateways.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified customer gateway.** ``` Get-EC2CustomerGateway -CustomerGatewayId cgw-1a2b3c4d ``` **Output:** ``` BgpAsn : 65534 CustomerGatewayId : cgw-1a2b3c4d IpAddress : 203.0.113.12 State : available Tags : {} Type : ipsec.1 ``` **Example 2: This example describes any customer gateway whose state is either pending or available.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "state" $filter.Values = @( "pending", "available" ) Get-EC2CustomerGateway -Filter $filter ``` **Example 3: This example describes all your customer gateways.** ``` Get-EC2CustomerGateway ``` + For API details, see [DescribeCustomerGateways](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified customer gateway.** ``` Get-EC2CustomerGateway -CustomerGatewayId cgw-1a2b3c4d ``` **Output:** ``` BgpAsn : 65534 CustomerGatewayId : cgw-1a2b3c4d IpAddress : 203.0.113.12 State : available Tags : {} Type : ipsec.1 ``` **Example 2: This example describes any customer gateway whose state is either pending or available.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "state" $filter.Values = @( "pending", "available" ) Get-EC2CustomerGateway -Filter $filter ``` **Example 3: This example describes all your customer gateways.** ``` Get-EC2CustomerGateway ``` + For API details, see [DescribeCustomerGateways](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeDhcpOptions` with a CLI The following code examples show how to use `DescribeDhcpOptions`. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe your DHCP options** The following `describe-dhcp-options` example retrieves details about your DHCP options. ``` aws ec2 describe-dhcp-options ``` Output: ``` { "DhcpOptions": [ { "DhcpConfigurations": [ { "Key": "domain-name", "Values": [ { "Value": "us-east-2.compute.internal" } ] }, { "Key": "domain-name-servers", "Values": [ { "Value": "AmazonProvidedDNS" } ] } ], "DhcpOptionsId": "dopt-19edf471", "OwnerId": "111122223333" }, { "DhcpConfigurations": [ { "Key": "domain-name", "Values": [ { "Value": "us-east-2.compute.internal" } ] }, { "Key": "domain-name-servers", "Values": [ { "Value": "AmazonProvidedDNS" } ] } ], "DhcpOptionsId": "dopt-fEXAMPLE", "OwnerId": "111122223333" } ] } ``` For more information, see [Working with DHCP Option Sets](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_DHCP_Options.html#DHCPOptionSet) in the *AWS VPC User Guide*. **Example 2: To describe your DHCP options and filter the output** The following `describe-dhcp-options` example describes your DHCP options and uses a filter to return only DHCP options that have `example.com` for the domain name server. The example uses the `--query` parameter to display only the configuration information and ID in the output. ``` aws ec2 describe-dhcp-options \ --filters Name=key,Values=domain-name-servers Name=value,Values=example.com \ --query "DhcpOptions[*].[DhcpConfigurations,DhcpOptionsId]" ``` Output: ``` [ [ [ { "Key": "domain-name", "Values": [ { "Value": "example.com" } ] }, { "Key": "domain-name-servers", "Values": [ { "Value": "172.16.16.16" } ] } ], "dopt-001122334455667ab" ] ] ``` For more information, see [Working with DHCP Option Sets](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_DHCP_Options.html#DHCPOptionSet) in the *AWS VPC User Guide*. + For API details, see [DescribeDhcpOptions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-dhcp-options.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example lists your DHCP options sets.** ``` Get-EC2DhcpOption ``` **Output:** ``` DhcpConfigurations DhcpOptionsId Tag ------------------ ------------- --- {domain-name, domain-name-servers} dopt-1a2b3c4d {} {domain-name, domain-name-servers} dopt-2a3b4c5d {} {domain-name-servers} dopt-3a4b5c6d {} ``` **Example 2: This example gets configuration details for the specified DHCP options set.** ``` (Get-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d).DhcpConfigurations ``` **Output:** ``` Key Values --- ------ domain-name {abc.local} domain-name-servers {10.0.0.101, 10.0.0.102} ``` + For API details, see [DescribeDhcpOptions](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example lists your DHCP options sets.** ``` Get-EC2DhcpOption ``` **Output:** ``` DhcpConfigurations DhcpOptionsId Tag ------------------ ------------- --- {domain-name, domain-name-servers} dopt-1a2b3c4d {} {domain-name, domain-name-servers} dopt-2a3b4c5d {} {domain-name-servers} dopt-3a4b5c6d {} ``` **Example 2: This example gets configuration details for the specified DHCP options set.** ``` (Get-EC2DhcpOption -DhcpOptionsId dopt-1a2b3c4d).DhcpConfigurations ``` **Output:** ``` Key Values --- ------ domain-name {abc.local} domain-name-servers {10.0.0.101, 10.0.0.102} ``` + For API details, see [DescribeDhcpOptions](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeFlowLogs` with a CLI The following code examples show how to use `DescribeFlowLogs`. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe all of your flow logs** The following `describe-flow-logs` example displays details for all of your flow logs. ``` aws ec2 describe-flow-logs ``` Output: ``` { "FlowLogs": [ { "CreationTime": "2018-02-21T13:22:12.644Z", "DeliverLogsPermissionArn": "arn:aws:iam::123456789012:role/flow-logs-role", "DeliverLogsStatus": "SUCCESS", "FlowLogId": "fl-aabbccdd112233445", "MaxAggregationInterval": 600, "FlowLogStatus": "ACTIVE", "LogGroupName": "FlowLogGroup", "ResourceId": "subnet-12345678901234567", "TrafficType": "ALL", "LogDestinationType": "cloud-watch-logs", "LogFormat": "${version} ${account-id} ${interface-id} ${srcaddr} ${dstaddr} ${srcport} ${dstport} ${protocol} ${packets} ${bytes} ${start} ${end} ${action} ${log-status}" }, { "CreationTime": "2020-02-04T15:22:29.986Z", "DeliverLogsStatus": "SUCCESS", "FlowLogId": "fl-01234567890123456", "MaxAggregationInterval": 60, "FlowLogStatus": "ACTIVE", "ResourceId": "vpc-00112233445566778", "TrafficType": "ACCEPT", "LogDestinationType": "s3", "LogDestination": "arn:aws:s3:::my-flow-log-bucket/custom", "LogFormat": "${version} ${vpc-id} ${subnet-id} ${instance-id} ${interface-id} ${account-id} ${type} ${srcaddr} ${dstaddr} ${srcport} ${dstport} ${pkt-srcaddr} ${pkt-dstaddr} ${protocol} ${bytes} ${packets} ${start} ${end} ${action} ${tcp-flags} ${log-status}" } ] } ``` **Example 2: To describe a subset of your flow logs** The following `describe-flow-logs` example uses a filter to display details for only those flow logs that are in the specified log group in Amazon CloudWatch Logs. ``` aws ec2 describe-flow-logs \ --filter "Name=log-group-name,Values=MyFlowLogs" ``` + For API details, see [DescribeFlowLogs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-flow-logs.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes one or more flow logs with log destination type 's3'** ``` Get-EC2FlowLog -Filter @{Name="log-destination-type";Values="s3"} ``` **Output:** ``` CreationTime : 2/25/2019 9:07:36 PM DeliverLogsErrorMessage : DeliverLogsPermissionArn : DeliverLogsStatus : SUCCESS FlowLogId : fl-01b2e3d45f67f8901 FlowLogStatus : ACTIVE LogDestination : arn:aws:s3:::amzn-s3-demo-bucket-dd-tata LogDestinationType : s3 LogGroupName : ResourceId : eni-01d2dda3456b7e890 TrafficType : ALL ``` + For API details, see [DescribeFlowLogs](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes one or more flow logs with log destination type 's3'** ``` Get-EC2FlowLog -Filter @{Name="log-destination-type";Values="s3"} ``` **Output:** ``` CreationTime : 2/25/2019 9:07:36 PM DeliverLogsErrorMessage : DeliverLogsPermissionArn : DeliverLogsStatus : SUCCESS FlowLogId : fl-01b2e3d45f67f8901 FlowLogStatus : ACTIVE LogDestination : arn:aws:s3:::amzn-s3-demo-bucket-dd-tata LogDestinationType : s3 LogGroupName : ResourceId : eni-01d2dda3456b7e890 TrafficType : ALL ``` + For API details, see [DescribeFlowLogs](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeHostReservationOfferings` with a CLI The following code examples show how to use `DescribeHostReservationOfferings`. ------ #### [ CLI ] **AWS CLI** **To describe Dedicated Host Reservation offerings** This example describes the Dedicated Host Reservations for the M4 instance family that are available to purchase. Command: ``` aws ec2 describe-host-reservation-offerings --filter Name=instance-family,Values=m4 ``` Output: ``` { "OfferingSet": [ { "HourlyPrice": "1.499", "OfferingId": "hro-03f707bf363b6b324", "InstanceFamily": "m4", "PaymentOption": "NoUpfront", "UpfrontPrice": "0.000", "Duration": 31536000 }, { "HourlyPrice": "1.045", "OfferingId": "hro-0ef9181cabdef7a02", "InstanceFamily": "m4", "PaymentOption": "NoUpfront", "UpfrontPrice": "0.000", "Duration": 94608000 }, { "HourlyPrice": "0.714", "OfferingId": "hro-04567a15500b92a51", "InstanceFamily": "m4", "PaymentOption": "PartialUpfront", "UpfrontPrice": "6254.000", "Duration": 31536000 }, { "HourlyPrice": "0.484", "OfferingId": "hro-0d5d7a9d23ed7fbfe", "InstanceFamily": "m4", "PaymentOption": "PartialUpfront", "UpfrontPrice": "12720.000", "Duration": 94608000 }, { "HourlyPrice": "0.000", "OfferingId": "hro-05da4108ca998c2e5", "InstanceFamily": "m4", "PaymentOption": "AllUpfront", "UpfrontPrice": "23913.000", "Duration": 94608000 }, { "HourlyPrice": "0.000", "OfferingId": "hro-0a9f9be3b95a3dc8f", "InstanceFamily": "m4", "PaymentOption": "AllUpfront", "UpfrontPrice": "12257.000", "Duration": 31536000 } ] } ``` + For API details, see [DescribeHostReservationOfferings](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-host-reservation-offerings.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the Dedicated Host reservations that are available to purchase for the given filter 'instance-family' where PaymentOption is 'NoUpfront'** ``` Get-EC2HostReservationOffering -Filter @{Name="instance-family";Values="m4"} | Where-Object PaymentOption -eq NoUpfront ``` **Output:** ``` CurrencyCode : Duration : 94608000 HourlyPrice : 1.307 InstanceFamily : m4 OfferingId : hro-0c1f234567890d9ab PaymentOption : NoUpfront UpfrontPrice : 0.000 CurrencyCode : Duration : 31536000 HourlyPrice : 1.830 InstanceFamily : m4 OfferingId : hro-04ad12aaaf34b5a67 PaymentOption : NoUpfront UpfrontPrice : 0.000 ``` + For API details, see [DescribeHostReservationOfferings](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the Dedicated Host reservations that are available to purchase for the given filter 'instance-family' where PaymentOption is 'NoUpfront'** ``` Get-EC2HostReservationOffering -Filter @{Name="instance-family";Values="m4"} | Where-Object PaymentOption -eq NoUpfront ``` **Output:** ``` CurrencyCode : Duration : 94608000 HourlyPrice : 1.307 InstanceFamily : m4 OfferingId : hro-0c1f234567890d9ab PaymentOption : NoUpfront UpfrontPrice : 0.000 CurrencyCode : Duration : 31536000 HourlyPrice : 1.830 InstanceFamily : m4 OfferingId : hro-04ad12aaaf34b5a67 PaymentOption : NoUpfront UpfrontPrice : 0.000 ``` + For API details, see [DescribeHostReservationOfferings](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeHosts` with a CLI The following code examples show how to use `DescribeHosts`. ------ #### [ CLI ] **AWS CLI** **To view details about Dedicated Hosts** The following `describe-hosts` example displays details for the `available` Dedicated Hosts in your AWS account. ``` aws ec2 describe-hosts --filter "Name=state,Values=available" ``` Output: ``` { "Hosts": [ { "HostId": "h-07879acf49EXAMPLE", "Tags": [ { "Value": "production", "Key": "purpose" } ], "HostProperties": { "Cores": 48, "TotalVCpus": 96, "InstanceType": "m5.large", "Sockets": 2 }, "Instances": [], "State": "available", "AvailabilityZone": "eu-west-1a", "AvailableCapacity": { "AvailableInstanceCapacity": [ { "AvailableCapacity": 48, "InstanceType": "m5.large", "TotalCapacity": 48 } ], "AvailableVCpus": 96 }, "HostRecovery": "on", "AllocationTime": "2019-08-19T08:57:44.000Z", "AutoPlacement": "off" } ] } ``` For more information, see [Viewing Dedicated Hosts](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/how-dedicated-hosts-work.html#dedicated-hosts-managing) in the *Amazon Elastic Compute Cloud User Guide for Linux Instances*. + For API details, see [DescribeHosts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-hosts.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example returns the EC2 host details** ``` Get-EC2Host ``` **Output:** ``` AllocationTime : 3/23/2019 4:55:22 PM AutoPlacement : off AvailabilityZone : eu-west-1b AvailableCapacity : Amazon.EC2.Model.AvailableCapacity ClientToken : HostId : h-01e23f4cd567890f1 HostProperties : Amazon.EC2.Model.HostProperties HostReservationId : Instances : {} ReleaseTime : 1/1/0001 12:00:00 AM State : available Tags : {} ``` **Example 2: This example queries the AvailableInstanceCapacity for the host h-01e23f4cd567899f1** ``` Get-EC2Host -HostId h-01e23f4cd567899f1 | Select-Object -ExpandProperty AvailableCapacity | Select-Object -expand AvailableInstanceCapacity ``` **Output:** ``` AvailableCapacity InstanceType TotalCapacity ----------------- ------------ ------------- 11 m4.xlarge 11 ``` + For API details, see [DescribeHosts](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example returns the EC2 host details** ``` Get-EC2Host ``` **Output:** ``` AllocationTime : 3/23/2019 4:55:22 PM AutoPlacement : off AvailabilityZone : eu-west-1b AvailableCapacity : Amazon.EC2.Model.AvailableCapacity ClientToken : HostId : h-01e23f4cd567890f1 HostProperties : Amazon.EC2.Model.HostProperties HostReservationId : Instances : {} ReleaseTime : 1/1/0001 12:00:00 AM State : available Tags : {} ``` **Example 2: This example queries the AvailableInstanceCapacity for the host h-01e23f4cd567899f1** ``` Get-EC2Host -HostId h-01e23f4cd567899f1 | Select-Object -ExpandProperty AvailableCapacity | Select-Object -expand AvailableInstanceCapacity ``` **Output:** ``` AvailableCapacity InstanceType TotalCapacity ----------------- ------------ ------------- 11 m4.xlarge 11 ``` + For API details, see [DescribeHosts](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeIamInstanceProfileAssociations` with an AWS SDK or CLI The following code examples show how to use `DescribeIamInstanceProfileAssociations`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Build and manage a resilient service](example_cross_ResilientService_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). ``` /// /// Get the instance profile association data for an instance. /// /// The Id of the instance. /// Instance profile associations data. public async Task GetInstanceProfile(string instanceId) { try { var response = await _amazonEc2.DescribeIamInstanceProfileAssociationsAsync( new DescribeIamInstanceProfileAssociationsRequest() { Filters = new List() { new("instance-id", new List() { instanceId }) }, }); return response.IamInstanceProfileAssociations[0]; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound") { _logger.LogError(ec2Exception, $"Instance {instanceId} not found"); } throw; } catch (Exception ex) { _logger.LogError(ex, $"An error occurred while creating the template.: {ex.Message}"); throw; } } ``` + For API details, see [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations) in *AWS SDK for .NET API Reference*. ------ #### [ CLI ] **AWS CLI** **To describe IAM instance profile associations** This example describes all of your IAM instance profile associations. Command: ``` aws ec2 describe-iam-instance-profile-associations ``` Output: ``` { "IamInstanceProfileAssociations": [ { "InstanceId": "i-09eb09efa73ec1dee", "State": "associated", "AssociationId": "iip-assoc-0db249b1f25fa24b8", "IamInstanceProfile": { "Id": "AIPAJVQN4F5WVLGCJDRGM", "Arn": "arn:aws:iam::123456789012:instance-profile/admin-role" } }, { "InstanceId": "i-0402909a2f4dffd14", "State": "associating", "AssociationId": "iip-assoc-0d1ec06278d29f44a", "IamInstanceProfile": { "Id": "AGJAJVQN4F5WVLGCJABCM", "Arn": "arn:aws:iam::123456789012:instance-profile/user1-role" } } ] } ``` + For API details, see [DescribeIamInstanceProfileAssociations](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-iam-instance-profile-associations.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). ``` const ec2Client = new EC2Client({}); const { IamInstanceProfileAssociations } = await ec2Client.send( new DescribeIamInstanceProfileAssociationsCommand({ Filters: [ { Name: "instance-id", Values: [state.targetInstance.InstanceId] }, ], }), ); ``` + For API details, see [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeIamInstanceProfileAssociationsCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class AutoScalingWrapper: """ Encapsulates Amazon EC2 Auto Scaling and EC2 management actions. """ def __init__( self, resource_prefix: str, inst_type: str, ami_param: str, autoscaling_client: boto3.client, ec2_client: boto3.client, ssm_client: boto3.client, iam_client: boto3.client, ): """ Initializes the AutoScaler class with the necessary parameters. :param resource_prefix: The prefix for naming AWS resources that are created by this class. :param inst_type: The type of EC2 instance to create, such as t3.micro. :param ami_param: The Systems Manager parameter used to look up the AMI that is created. :param autoscaling_client: A Boto3 EC2 Auto Scaling client. :param ec2_client: A Boto3 EC2 client. :param ssm_client: A Boto3 Systems Manager client. :param iam_client: A Boto3 IAM client. """ self.inst_type = inst_type self.ami_param = ami_param self.autoscaling_client = autoscaling_client self.ec2_client = ec2_client self.ssm_client = ssm_client self.iam_client = iam_client sts_client = boto3.client("sts") self.account_id = sts_client.get_caller_identity()["Account"] self.key_pair_name = f"{resource_prefix}-key-pair" self.launch_template_name = f"{resource_prefix}-template-" self.group_name = f"{resource_prefix}-group" # Happy path self.instance_policy_name = f"{resource_prefix}-pol" self.instance_role_name = f"{resource_prefix}-role" self.instance_profile_name = f"{resource_prefix}-prof" # Failure mode self.bad_creds_policy_name = f"{resource_prefix}-bc-pol" self.bad_creds_role_name = f"{resource_prefix}-bc-role" self.bad_creds_profile_name = f"{resource_prefix}-bc-prof" def get_instance_profile(self, instance_id: str) -> Dict[str, Any]: """ Gets data about the profile associated with an instance. :param instance_id: The ID of the instance to look up. :return: The profile data. """ try: response = self.ec2_client.describe_iam_instance_profile_associations( Filters=[{"Name": "instance-id", "Values": [instance_id]}] ) if not response["IamInstanceProfileAssociations"]: log.info(f"No instance profile found for instance {instance_id}.") profile_data = response["IamInstanceProfileAssociations"][0] log.info(f"Retrieved instance profile for instance {instance_id}.") return profile_data except ClientError as err: log.error( f"Failed to retrieve instance profile for instance {instance_id}." ) error_code = err.response["Error"]["Code"] if error_code == "InvalidInstanceID.NotFound": log.error(f"The instance ID '{instance_id}' does not exist.") log.error(f"Full error:\n\t{err}") ``` + For API details, see [DescribeIamInstanceProfileAssociations](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeIamInstanceProfileAssociations) in *AWS SDK for Python (Boto3) API Reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeIdFormat` with a CLI The following code examples show how to use `DescribeIdFormat`. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe the ID format of a resource** The following `describe-id-format` example describes the ID format for security groups. ``` aws ec2 describe-id-format \ --resource security-group ``` In the following example output, the `Deadline` value indicates that the deadline for this resource type to permanently switch from the short ID format to the long ID format expired at 00:00 UTC on August 15, 2018. ``` { "Statuses": [ { "Deadline": "2018-08-15T00:00:00.000Z", "Resource": "security-group", "UseLongIds": true } ] } ``` **Example 2: To describe the ID format for all resources** The following `describe-id-format` example describes the ID format for all resource types. All resource types that supported the short ID format were switched to use the long ID format. ``` aws ec2 describe-id-format ``` + For API details, see [DescribeIdFormat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-id-format.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the ID format for the specified resource type.** ``` Get-EC2IdFormat -Resource instance ``` **Output:** ``` Resource UseLongIds -------- ---------- instance False ``` **Example 2: This example describes the ID formats for all resource types that support longer IDs.** ``` Get-EC2IdFormat ``` **Output:** ``` Resource UseLongIds -------- ---------- reservation False instance False ``` + For API details, see [DescribeIdFormat](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the ID format for the specified resource type.** ``` Get-EC2IdFormat -Resource instance ``` **Output:** ``` Resource UseLongIds -------- ---------- instance False ``` **Example 2: This example describes the ID formats for all resource types that support longer IDs.** ``` Get-EC2IdFormat ``` **Output:** ``` Resource UseLongIds -------- ---------- reservation False instance False ``` + For API details, see [DescribeIdFormat](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeIdentityIdFormat` with a CLI The following code examples show how to use `DescribeIdentityIdFormat`. ------ #### [ CLI ] **AWS CLI** **To describe the ID format for an IAM role** The following `describe-identity-id-format` example describes the ID format received by instances created by the IAM role `EC2Role` in your AWS account. ``` aws ec2 describe-identity-id-format \ --principal-arn arn:aws:iam::123456789012:role/my-iam-role \ --resource instance ``` The following output indicates that instances created by this role receive IDs in long ID format. ``` { "Statuses": [ { "Deadline": "2016-12-15T00:00:00Z", "Resource": "instance", "UseLongIds": true } ] } ``` **To describe the ID format for an IAM user** The following `describe-identity-id-format` example describes the ID format received by snapshots created by the IAM user `AdminUser` in your AWS account. ``` aws ec2 describe-identity-id-format \ --principal-arn arn:aws:iam::123456789012:user/AdminUser \ --resource snapshot ``` The output indicates that snapshots created by this user receive IDs in long ID format. ``` { "Statuses": [ { "Deadline": "2016-12-15T00:00:00Z", "Resource": "snapshot", "UseLongIds": true } ] } ``` + For API details, see [DescribeIdentityIdFormat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-identity-id-format.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example returns the ID format for the resouce 'image' for the role given** ``` Get-EC2IdentityIdFormat -PrincipalArn arn:aws:iam::123456789511:role/JDBC -Resource image ``` **Output:** ``` Deadline Resource UseLongIds -------- -------- ---------- 8/2/2018 11:30:00 PM image True ``` + For API details, see [DescribeIdentityIdFormat](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example returns the ID format for the resouce 'image' for the role given** ``` Get-EC2IdentityIdFormat -PrincipalArn arn:aws:iam::123456789511:role/JDBC -Resource image ``` **Output:** ``` Deadline Resource UseLongIds -------- -------- ---------- 8/2/2018 11:30:00 PM image True ``` + For API details, see [DescribeIdentityIdFormat](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeImageAttribute` with a CLI The following code examples show how to use `DescribeImageAttribute`. ------ #### [ CLI ] **AWS CLI** **To describe the launch permissions for an AMI** This example describes the launch permissions for the specified AMI. Command: ``` aws ec2 describe-image-attribute --image-id ami-5731123e --attribute launchPermission ``` Output: ``` { "LaunchPermissions": [ { "UserId": "123456789012" } ], "ImageId": "ami-5731123e", } ``` **To describe the product codes for an AMI** This example describes the product codes for the specified AMI. Note that this AMI has no product codes. Command: ``` aws ec2 describe-image-attribute --image-id ami-5731123e --attribute productCodes ``` Output: ``` { "ProductCodes": [], "ImageId": "ami-5731123e", } ``` + For API details, see [DescribeImageAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-image-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example gets the description for the specified AMI.** ``` Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute description ``` **Output:** ``` BlockDeviceMappings : {} Description : My image description ImageId : ami-12345678 KernelId : LaunchPermissions : {} ProductCodes : {} RamdiskId : SriovNetSupport : ``` **Example 2: This example gets the launch permissions for the specified AMI.** ``` Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission ``` **Output:** ``` BlockDeviceMappings : {} Description : ImageId : ami-12345678 KernelId : LaunchPermissions : {all} ProductCodes : {} RamdiskId : SriovNetSupport : ``` **Example 3: This example test whether enhanced networking is enabled.** ``` Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute sriovNetSupport ``` **Output:** ``` BlockDeviceMappings : {} Description : ImageId : ami-12345678 KernelId : LaunchPermissions : {} ProductCodes : {} RamdiskId : SriovNetSupport : simple ``` + For API details, see [DescribeImageAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example gets the description for the specified AMI.** ``` Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute description ``` **Output:** ``` BlockDeviceMappings : {} Description : My image description ImageId : ami-12345678 KernelId : LaunchPermissions : {} ProductCodes : {} RamdiskId : SriovNetSupport : ``` **Example 2: This example gets the launch permissions for the specified AMI.** ``` Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission ``` **Output:** ``` BlockDeviceMappings : {} Description : ImageId : ami-12345678 KernelId : LaunchPermissions : {all} ProductCodes : {} RamdiskId : SriovNetSupport : ``` **Example 3: This example test whether enhanced networking is enabled.** ``` Get-EC2ImageAttribute -ImageId ami-12345678 -Attribute sriovNetSupport ``` **Output:** ``` BlockDeviceMappings : {} Description : ImageId : ami-12345678 KernelId : LaunchPermissions : {} ProductCodes : {} RamdiskId : SriovNetSupport : simple ``` + For API details, see [DescribeImageAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeImages` with an AWS SDK or CLI The following code examples show how to use `DescribeImages`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Get started with Marketplace Buyer](example_ec2_GettingStarted_030_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) + [Run CPU stress tests on EC2 instances using FIS](example_iam_GettingStarted_069_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_describe_images # # This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) images. # # Parameters: # -i image_ids - A space-separated list of image IDs (optional). # -h - Display help. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_describe_images() { local image_ids response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_describe_images" echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) images." echo " -i image_ids - A space-separated list of image IDs (optional)." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:h" option; do case "${option}" in i) image_ids="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 local aws_cli_args=() if [[ -n "$image_ids" ]]; then # shellcheck disable=SC2206 aws_cli_args+=("--image-ids" $image_ids) fi response=$(aws ec2 describe-images \ "${aws_cli_args[@]}" \ --query 'Images[*].[Description,Architecture,ImageId]' \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports describe-images operation failed.$response" return 1 } echo "$response" return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [DescribeImages](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeImages) in *AWS CLI Command Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe an AMI** The following `describe-images` example describes the specified AMI in the specified Region. ``` aws ec2 describe-images \ --region us-east-1 \ --image-ids ami-1234567890EXAMPLE ``` Output: ``` { "Images": [ { "VirtualizationType": "hvm", "Description": "Provided by Red Hat, Inc.", "PlatformDetails": "Red Hat Enterprise Linux", "EnaSupport": true, "Hypervisor": "xen", "State": "available", "SriovNetSupport": "simple", "ImageId": "ami-1234567890EXAMPLE", "UsageOperation": "RunInstances:0010", "BlockDeviceMappings": [ { "DeviceName": "/dev/sda1", "Ebs": { "SnapshotId": "snap-111222333444aaabb", "DeleteOnTermination": true, "VolumeType": "gp2", "VolumeSize": 10, "Encrypted": false } } ], "Architecture": "x86_64", "ImageLocation": "123456789012/RHEL-8.0.0_HVM-20190618-x86_64-1-Hourly2-GP2", "RootDeviceType": "ebs", "OwnerId": "123456789012", "RootDeviceName": "/dev/sda1", "CreationDate": "2019-05-10T13:17:12.000Z", "Public": true, "ImageType": "machine", "Name": "RHEL-8.0.0_HVM-20190618-x86_64-1-Hourly2-GP2" } ] } ``` For more information, see [Amazon Machine Images (AMI)](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/AMIs.html) in the *Amazon EC2 User Guide*. **Example 2: To describe AMIs based on filters** The following `describe-images` example describes Windows AMIs provided by Amazon that are backed by Amazon EBS. ``` aws ec2 describe-images \ --owners amazon \ --filters "Name=platform,Values=windows" "Name=root-device-type,Values=ebs" ``` For an example of the output for `describe-images`, see Example 1. For additional examples using filters, see [Listing and filtering your resources](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Filtering.html#Filtering_Resources_CLI) in the *Amazon EC2 User Guide*. **Example 3: To describe AMIs based on tags** The following `describe-images` example describes all AMIs that have the tag `Type=Custom`. The example uses the `--query` parameter to display only the AMI IDs. ``` aws ec2 describe-images \ --filters "Name=tag:Type,Values=Custom" \ --query 'Images[*].[ImageId]' \ --output text ``` Output: ``` ami-1234567890EXAMPLE ami-0abcdef1234567890 ``` For additional examples using tag filters, see [Working with tags](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#Using_Tags_CLI) in the *Amazon EC2 User Guide*. + For API details, see [DescribeImages](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-images.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { EC2Client, paginateDescribeImages } from "@aws-sdk/client-ec2"; /** * Describes the specified images (AMIs, AKIs, and ARIs) available to you or all of the images available to you. * @param {{ architecture: string, pageSize: number }} options */ export const main = async ({ architecture, pageSize }) => { pageSize = Number.parseInt(pageSize); const client = new EC2Client({}); // The paginate function is a wrapper around the base command. const paginator = paginateDescribeImages( // Without limiting the page size, this call can take a long time. pageSize is just sugar for // the MaxResults property in the base command. { client, pageSize }, { // There are almost 70,000 images available. Be specific with your filtering // to increase efficiency. // See https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/clients/client-ec2/interfaces/describeimagescommandinput.html#filters Filters: [{ Name: "architecture", Values: [architecture] }], }, ); /** * @type {import('@aws-sdk/client-ec2').Image[]} */ const images = []; let recordsScanned = 0; try { for await (const page of paginator) { recordsScanned += pageSize; if (page.Images.length) { images.push(...page.Images); break; } console.log( `No matching image found yet. Searched ${recordsScanned} records.`, ); } if (images.length) { console.log( `Found ${images.length} images:\n\n${images.map((image) => image.Name).join("\n")}\n`, ); } else { console.log( `No matching images found. Searched ${recordsScanned} records.\n`, ); } return images; } catch (caught) { if (caught instanceof Error && caught.name === "InvalidParameterValue") { console.warn(`${caught.message}`); return []; } throw caught; } }; ``` + For API details, see [DescribeImages](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeImagesCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified AMI.** ``` Get-EC2Image -ImageId ami-12345678 ``` **Output:** ``` Architecture : x86_64 BlockDeviceMappings : {/dev/xvda} CreationDate : 2014-10-20T00:56:28.000Z Description : My image Hypervisor : xen ImageId : ami-12345678 ImageLocation : 123456789012/my-image ImageOwnerAlias : ImageType : machine KernelId : Name : my-image OwnerId : 123456789012 Platform : ProductCodes : {} Public : False RamdiskId : RootDeviceName : /dev/xvda RootDeviceType : ebs SriovNetSupport : simple State : available StateReason : Tags : {Name} VirtualizationType : hvm ``` **Example 2: This example describes the AMIs that you own.** ``` Get-EC2Image -owner self ``` **Example 3: This example describes the public AMIs that run Microsoft Windows Server.** ``` Get-EC2Image -Filter @{ Name="platform"; Values="windows" } ``` **Example 4: This example describes all public AMIs in the 'us-west-2' region.** ``` Get-EC2Image -Region us-west-2 ``` + For API details, see [DescribeImages](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified AMI.** ``` Get-EC2Image -ImageId ami-12345678 ``` **Output:** ``` Architecture : x86_64 BlockDeviceMappings : {/dev/xvda} CreationDate : 2014-10-20T00:56:28.000Z Description : My image Hypervisor : xen ImageId : ami-12345678 ImageLocation : 123456789012/my-image ImageOwnerAlias : ImageType : machine KernelId : Name : my-image OwnerId : 123456789012 Platform : ProductCodes : {} Public : False RamdiskId : RootDeviceName : /dev/xvda RootDeviceType : ebs SriovNetSupport : simple State : available StateReason : Tags : {Name} VirtualizationType : hvm ``` **Example 2: This example describes the AMIs that you own.** ``` Get-EC2Image -owner self ``` **Example 3: This example describes the public AMIs that run Microsoft Windows Server.** ``` Get-EC2Image -Filter @{ Name="platform"; Values="windows" } ``` **Example 4: This example describes all public AMIs in the 'us-west-2' region.** ``` Get-EC2Image -Region us-west-2 ``` + For API details, see [DescribeImages](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class EC2InstanceWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface.""" def __init__( self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None ) -> None: """ Initializes the EC2InstanceWrapper with an EC2 client and optional instances. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that wrap instance actions. """ self.ec2_client = ec2_client self.instances = instances or [] @classmethod def from_client(cls) -> "EC2InstanceWrapper": """ Creates an EC2InstanceWrapper instance with a default EC2 client. :return: An instance of EC2InstanceWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def get_images(self, image_ids: List[str]) -> List[Dict[str, Any]]: """ Gets information about Amazon Machine Images (AMIs) from a list of AMI IDs. :param image_ids: The list of AMI IDs to look up. :return: A list of dictionaries representing the requested AMIs. """ try: response = self.ec2_client.describe_images(ImageIds=image_ids) images = response["Images"] except ClientError as err: logger.error(f"Failed to stop AMI(s): {','.join(map(str, image_ids))}") error_code = err.response["Error"]["Code"] if error_code == "InvalidAMIID.NotFound": logger.error("One or more of the AMI IDs does not exist.") raise return images ``` + For API details, see [DescribeImages](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeImages) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn list_images(&self, ids: Vec) -> Result, EC2Error> { let image_ids = ids.into_iter().filter_map(|p| p.value).collect(); let output = self .client .describe_images() .set_image_ids(Some(image_ids)) .send() .await?; let images = output.images.unwrap_or_default(); if images.is_empty() { Err(EC2Error::new("No images for selected AMIs")) } else { Ok(images) } } ``` Using the list\$1images function with SSM to limit based on your environment. For more details on SSM, see https://docs.aws.amazon.com/systems-manager/latest/userguide/example\$1ssm\$1GetParameters\$1section.html. ``` async fn find_image(&mut self) -> Result { let params: Vec = self .ssm .list_path("/aws/service/ami-amazon-linux-latest") .await .map_err(|e| e.add_message("Could not find parameters for available images"))? .into_iter() .filter(|param| param.name().is_some_and(|name| name.contains("amzn2"))) .collect(); let amzn2_images: Vec = self .ec2 .list_images(params) .await .map_err(|e| e.add_message("Could not find images"))? .into_iter() .map(ScenarioImage::from) .collect(); println!("We will now create an instance from an Amazon Linux 2 AMI"); let ami = self.util.select_scenario_image(amzn2_images)?; Ok(ami) } ``` + For API details, see [DescribeImages](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_images) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. oo_result = lo_ec2->describeimages( it_imageids = it_image_ids ). " oo_result is returned for testing purposes. " DATA(lt_images) = oo_result->get_images( ). MESSAGE 'Retrieved information about Amazon Machine Images (AMIs).' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DescribeImages](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Return an array of `EC2ClientTypes.Image` objects describing all of /// the images in the specified array. /// /// - Parameter idList: A list of image ID strings indicating the images /// to return details about. /// /// - Returns: An array of the images. func describeImages(_ idList: [String]) async -> [EC2ClientTypes.Image] { do { let output = try await ec2Client.describeImages( input: DescribeImagesInput( imageIds: idList ) ) guard let images = output.images else { print("*** No images found.") return [] } for image in images { guard let id = image.imageId else { continue } print(" \(id): \(image.description ?? "")") } return images } catch { print("*** Error getting image descriptions: \(error.localizedDescription)") return [] } } ``` + For API details, see [DescribeImages](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describeimages(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeImportImageTasks` with a CLI The following code examples show how to use `DescribeImportImageTasks`. ------ #### [ CLI ] **AWS CLI** **To monitor an import image task** The following `describe-import-image-tasks` example checks the status of the specified import image task. ``` aws ec2 describe-import-image-tasks \ --import-task-ids import-ami-1234567890abcdef0 ``` Output for an import image task that is in progress. ``` { "ImportImageTasks": [ { "ImportTaskId": "import-ami-1234567890abcdef0", "Progress": "28", "SnapshotDetails": [ { "DiskImageSize": 705638400.0, "Format": "ova", "Status": "completed", "UserBucket": { "S3Bucket": "my-import-bucket", "S3Key": "vms/my-server-vm.ova" } } ], "Status": "active", "StatusMessage": "converting" } ] } ``` Output for an import image task that is completed. The ID of the resulting AMI is provided by `ImageId`. ``` { "ImportImageTasks": [ { "ImportTaskId": "import-ami-1234567890abcdef0", "ImageId": "ami-1234567890abcdef0", "SnapshotDetails": [ { "DiskImageSize": 705638400.0, "Format": "ova", "SnapshotId": "snap-1234567890abcdef0" "Status": "completed", "UserBucket": { "S3Bucket": "my-import-bucket", "S3Key": "vms/my-server-vm.ova" } } ], "Status": "completed" } ] } ``` + For API details, see [DescribeImportImageTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-import-image-tasks.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified image import task.** ``` Get-EC2ImportImageTask -ImportTaskId import-ami-hgfedcba ``` **Output:** ``` Architecture : x86_64 Description : Windows Image 2 Hypervisor : ImageId : ami-1a2b3c4d ImportTaskId : import-ami-hgfedcba LicenseType : AWS Platform : Windows Progress : SnapshotDetails : {/dev/sda1} Status : completed StatusMessage : ``` **Example 2: This example describes all your image import tasks.** ``` Get-EC2ImportImageTask ``` **Output:** ``` Architecture : Description : Windows Image 1 Hypervisor : ImageId : ImportTaskId : import-ami-abcdefgh LicenseType : AWS Platform : Windows Progress : SnapshotDetails : {} Status : deleted StatusMessage : User initiated task cancelation Architecture : x86_64 Description : Windows Image 2 Hypervisor : ImageId : ami-1a2b3c4d ImportTaskId : import-ami-hgfedcba LicenseType : AWS Platform : Windows Progress : SnapshotDetails : {/dev/sda1} Status : completed StatusMessage : ``` + For API details, see [DescribeImportImageTasks](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified image import task.** ``` Get-EC2ImportImageTask -ImportTaskId import-ami-hgfedcba ``` **Output:** ``` Architecture : x86_64 Description : Windows Image 2 Hypervisor : ImageId : ami-1a2b3c4d ImportTaskId : import-ami-hgfedcba LicenseType : AWS Platform : Windows Progress : SnapshotDetails : {/dev/sda1} Status : completed StatusMessage : ``` **Example 2: This example describes all your image import tasks.** ``` Get-EC2ImportImageTask ``` **Output:** ``` Architecture : Description : Windows Image 1 Hypervisor : ImageId : ImportTaskId : import-ami-abcdefgh LicenseType : AWS Platform : Windows Progress : SnapshotDetails : {} Status : deleted StatusMessage : User initiated task cancelation Architecture : x86_64 Description : Windows Image 2 Hypervisor : ImageId : ami-1a2b3c4d ImportTaskId : import-ami-hgfedcba LicenseType : AWS Platform : Windows Progress : SnapshotDetails : {/dev/sda1} Status : completed StatusMessage : ``` + For API details, see [DescribeImportImageTasks](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeImportSnapshotTasks` with a CLI The following code examples show how to use `DescribeImportSnapshotTasks`. ------ #### [ CLI ] **AWS CLI** **To monitor an import snapshot task** The following `describe-import-snapshot-tasks` example checks the status of the specified import snapshot task. ``` aws ec2 describe-import-snapshot-tasks \ --import-task-ids import-snap-1234567890abcdef0 ``` Output for an import snapshot task that is in progress: ``` { "ImportSnapshotTasks": [ { "Description": "My server VMDK", "ImportTaskId": "import-snap-1234567890abcdef0", "SnapshotTaskDetail": { "Description": "My server VMDK", "DiskImageSize": "705638400.0", "Format": "VMDK", "Progress": "42", "Status": "active", "StatusMessage": "downloading/converting", "UserBucket": { "S3Bucket": "my-import-bucket", "S3Key": "vms/my-server-vm.vmdk" } } } ] } ``` Output for an import snapshot task that is completed. The ID of the resulting snapshot is provided by `SnapshotId`. ``` { "ImportSnapshotTasks": [ { "Description": "My server VMDK", "ImportTaskId": "import-snap-1234567890abcdef0", "SnapshotTaskDetail": { "Description": "My server VMDK", "DiskImageSize": "705638400.0", "Format": "VMDK", "SnapshotId": "snap-1234567890abcdef0" "Status": "completed", "UserBucket": { "S3Bucket": "my-import-bucket", "S3Key": "vms/my-server-vm.vmdk" } } } ] } ``` + For API details, see [DescribeImportSnapshotTasks](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-import-snapshot-tasks.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified snapshot import task.** ``` Get-EC2ImportSnapshotTask -ImportTaskId import-snap-abcdefgh ``` **Output:** ``` Description ImportTaskId SnapshotTaskDetail ----------------- -------------------- ------------------ Disk Image Import 1 import-snap-abcdefgh Amazon.EC2.Model.SnapshotTaskDetail ``` **Example 2: This example describes all your snapshot import tasks.** ``` Get-EC2ImportSnapshotTask ``` **Output:** ``` Description ImportTaskId SnapshotTaskDetail ----------------- -------------------- ------------------ Disk Image Import 1 import-snap-abcdefgh Amazon.EC2.Model.SnapshotTaskDetail Disk Image Import 2 import-snap-hgfedcba Amazon.EC2.Model.SnapshotTaskDetail ``` + For API details, see [DescribeImportSnapshotTasks](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified snapshot import task.** ``` Get-EC2ImportSnapshotTask -ImportTaskId import-snap-abcdefgh ``` **Output:** ``` Description ImportTaskId SnapshotTaskDetail ----------------- -------------------- ------------------ Disk Image Import 1 import-snap-abcdefgh Amazon.EC2.Model.SnapshotTaskDetail ``` **Example 2: This example describes all your snapshot import tasks.** ``` Get-EC2ImportSnapshotTask ``` **Output:** ``` Description ImportTaskId SnapshotTaskDetail ----------------- -------------------- ------------------ Disk Image Import 1 import-snap-abcdefgh Amazon.EC2.Model.SnapshotTaskDetail Disk Image Import 2 import-snap-hgfedcba Amazon.EC2.Model.SnapshotTaskDetail ``` + For API details, see [DescribeImportSnapshotTasks](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeInstanceAttribute` with a CLI The following code examples show how to use `DescribeInstanceAttribute`. ------ #### [ CLI ] **AWS CLI** **To describe the instance type** This example describes the instance type of the specified instance. Command: ``` aws ec2 describe-instance-attribute --instance-id i-1234567890abcdef0 --attribute instanceType ``` Output: ``` { "InstanceId": "i-1234567890abcdef0" "InstanceType": { "Value": "t1.micro" } } ``` **To describe the disableApiTermination attribute** This example describes the `disableApiTermination` attribute of the specified instance. Command: ``` aws ec2 describe-instance-attribute --instance-id i-1234567890abcdef0 --attribute disableApiTermination ``` Output: ``` { "InstanceId": "i-1234567890abcdef0" "DisableApiTermination": { "Value": "false" } } ``` **To describe the block device mapping for an instance** This example describes the `blockDeviceMapping` attribute of the specified instance. Command: ``` aws ec2 describe-instance-attribute --instance-id i-1234567890abcdef0 --attribute blockDeviceMapping ``` Output: ``` { "InstanceId": "i-1234567890abcdef0" "BlockDeviceMappings": [ { "DeviceName": "/dev/sda1", "Ebs": { "Status": "attached", "DeleteOnTermination": true, "VolumeId": "vol-049df61146c4d7901", "AttachTime": "2013-05-17T22:42:34.000Z" } }, { "DeviceName": "/dev/sdf", "Ebs": { "Status": "attached", "DeleteOnTermination": false, "VolumeId": "vol-049df61146c4d7901", "AttachTime": "2013-09-10T23:07:00.000Z" } } ], } ``` + For API details, see [DescribeInstanceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the instance type of the specified instance.** ``` Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceType ``` **Output:** ``` InstanceType : t2.micro ``` **Example 2: This example describes whether enhanced networking is enabled for the specified instance.** ``` Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sriovNetSupport ``` **Output:** ``` SriovNetSupport : simple ``` **Example 3: This example describes the security groups for the specified instance.** ``` (Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute groupSet).Groups ``` **Output:** ``` GroupId ------- sg-12345678 sg-45678901 ``` **Example 4: This example describes whether EBS optimization is enabled for the specified instance.** ``` Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute ebsOptimized ``` **Output:** ``` EbsOptimized : False ``` **Example 5: This example describes the 'disableApiTermination' attribute of the specified instance.** ``` Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute disableApiTermination ``` **Output:** ``` DisableApiTermination : False ``` **Example 6: This example describes the 'instanceInitiatedShutdownBehavior' attribute of the specified instance.** ``` Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceInitiatedShutdownBehavior ``` **Output:** ``` InstanceInitiatedShutdownBehavior : stop ``` + For API details, see [DescribeInstanceAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the instance type of the specified instance.** ``` Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceType ``` **Output:** ``` InstanceType : t2.micro ``` **Example 2: This example describes whether enhanced networking is enabled for the specified instance.** ``` Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sriovNetSupport ``` **Output:** ``` SriovNetSupport : simple ``` **Example 3: This example describes the security groups for the specified instance.** ``` (Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute groupSet).Groups ``` **Output:** ``` GroupId ------- sg-12345678 sg-45678901 ``` **Example 4: This example describes whether EBS optimization is enabled for the specified instance.** ``` Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute ebsOptimized ``` **Output:** ``` EbsOptimized : False ``` **Example 5: This example describes the 'disableApiTermination' attribute of the specified instance.** ``` Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute disableApiTermination ``` **Output:** ``` DisableApiTermination : False ``` **Example 6: This example describes the 'instanceInitiatedShutdownBehavior' attribute of the specified instance.** ``` Get-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceInitiatedShutdownBehavior ``` **Output:** ``` InstanceInitiatedShutdownBehavior : stop ``` + For API details, see [DescribeInstanceAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeInstanceStatus` with an AWS SDK or CLI The following code examples show how to use `DescribeInstanceStatus`. ------ #### [ CLI ] **AWS CLI** **To describe the status of an instance** The following `describe-instance-status` example describes the current status of the specified instance. ``` aws ec2 describe-instance-status \ --instance-ids i-1234567890abcdef0 ``` Output: ``` { "InstanceStatuses": [ { "InstanceId": "i-1234567890abcdef0", "InstanceState": { "Code": 16, "Name": "running" }, "AvailabilityZone": "us-east-1d", "SystemStatus": { "Status": "ok", "Details": [ { "Status": "passed", "Name": "reachability" } ] }, "InstanceStatus": { "Status": "ok", "Details": [ { "Status": "passed", "Name": "reachability" } ] } } ] } ``` For more information, see [Monitor the status of your instances](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/monitoring-instances-status-check.html) in the *Amazon EC2 User Guide*. + For API details, see [DescribeInstanceStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-status.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the status of the specified instance.** ``` Get-EC2InstanceStatus -InstanceId i-12345678 ``` **Output:** ``` AvailabilityZone : us-west-2a Events : {} InstanceId : i-12345678 InstanceState : Amazon.EC2.Model.InstanceState Status : Amazon.EC2.Model.InstanceStatusSummary SystemStatus : Amazon.EC2.Model.InstanceStatusSummary ``` ``` $status = Get-EC2InstanceStatus -InstanceId i-12345678 $status.InstanceState ``` **Output:** ``` Code Name ---- ---- 16 running ``` ``` $status.Status ``` **Output:** ``` Details Status ------- ------ {reachability} ok ``` ``` $status.SystemStatus ``` **Output:** ``` Details Status ------- ------ {reachability} ok ``` + For API details, see [DescribeInstanceStatus](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the status of the specified instance.** ``` Get-EC2InstanceStatus -InstanceId i-12345678 ``` **Output:** ``` AvailabilityZone : us-west-2a Events : {} InstanceId : i-12345678 InstanceState : Amazon.EC2.Model.InstanceState Status : Amazon.EC2.Model.InstanceStatusSummary SystemStatus : Amazon.EC2.Model.InstanceStatusSummary ``` ``` $status = Get-EC2InstanceStatus -InstanceId i-12345678 $status.InstanceState ``` **Output:** ``` Code Name ---- ---- 16 running ``` ``` $status.Status ``` **Output:** ``` Details Status ------- ------ {reachability} ok ``` ``` $status.SystemStatus ``` **Output:** ``` Details Status ------- ------ {reachability} ok ``` + For API details, see [DescribeInstanceStatus](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` async fn show_all_events(client: &Client) -> Result<(), Error> { let resp = client.describe_regions().send().await.unwrap(); for region in resp.regions.unwrap_or_default() { let reg: &'static str = Box::leak(Box::from(region.region_name().unwrap())); let region_provider = RegionProviderChain::default_provider().or_else(reg); let config = aws_config::from_env().region(region_provider).load().await; let new_client = Client::new(&config); let resp = new_client.describe_instance_status().send().await; println!("Instances in region {}:", reg); println!(); for status in resp.unwrap().instance_statuses() { println!( " Events scheduled for instance ID: {}", status.instance_id().unwrap_or_default() ); for event in status.events() { println!(" Event ID: {}", event.instance_event_id().unwrap()); println!(" Description: {}", event.description().unwrap()); println!(" Event code: {}", event.code().unwrap().as_ref()); println!(); } } } Ok(()) } ``` + For API details, see [DescribeInstanceStatus](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instance_status) in *AWS SDK for Rust API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeInstanceTypes` with an AWS SDK or CLI The following code examples show how to use `DescribeInstanceTypes`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Describe the instance types available. /// /// A list of instance type information. public async Task> DescribeInstanceTypes(ArchitectureValues architecture) { try { var request = new DescribeInstanceTypesRequest(); var filters = new List { new Filter("processor-info.supported-architecture", new List { architecture.ToString() }) }; filters.Add(new Filter("instance-type", new() { "*.micro", "*.small" })); request.Filters = filters; var instanceTypes = new List(); var paginator = _amazonEC2.Paginators.DescribeInstanceTypes(request); await foreach (var instanceType in paginator.InstanceTypes) { instanceTypes.Add(instanceType); } return instanceTypes; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidParameterValue") { _logger.LogError( $"Parameters are invalid. Ensure architecture and size strings conform to DescribeInstanceTypes API reference."); } throw; } catch (Exception ex) { Console.WriteLine($"Couldn't delete the security group because: {ex.Message}"); throw; } } ``` + For API details, see [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstanceTypes) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # ec2_describe_instance_types # # This function describes EC2 instance types filtered by processor architecture # and optionally by instance type. It takes the following arguments: # # -a, --architecture ARCHITECTURE Specify the processor architecture (e.g., x86_64) # -t, --type INSTANCE_TYPE Comma-separated list of instance types (e.g., t2.micro) # -h, --help Show the usage help # # The function prints the instance type and supported architecture for each # matching instance type. ############################################################################### function ec2_describe_instance_types() { local architecture="" local instance_types="" # bashsupport disable=BP5008 function usage() { echo "Usage: ec2_describe_instance_types [-a|--architecture ARCHITECTURE] [-t|--type INSTANCE_TYPE] [-h|--help]" echo " -a, --architecture ARCHITECTURE Specify the processor architecture (e.g., x86_64)" echo " -t, --type INSTANCE_TYPE Comma-separated list of instance types (e.g., t2.micro)" echo " -h, --help Show this help message" } while [[ $# -gt 0 ]]; do case "$1" in -a | --architecture) architecture="$2" shift 2 ;; -t | --type) instance_types="$2" shift 2 ;; -h | --help) usage return 0 ;; *) echo "Unknown argument: $1" return 1 ;; esac done if [[ -z "$architecture" ]]; then errecho "Error: Architecture not specified." usage return 1 fi if [[ -z "$instance_types" ]]; then errecho "Error: Instance type not specified." usage return 1 fi local tmp_json_file="temp_ec2.json" echo -n '[ { "Name": "processor-info.supported-architecture", "Values": [' >"$tmp_json_file" local items IFS=',' read -ra items <<<"$architecture" local array_size array_size=${#items[@]} for i in $(seq 0 $((array_size - 1))); do echo -n '"'"${items[$i]}"'"' >>"$tmp_json_file" if [[ $i -lt $((array_size - 1)) ]]; then echo -n ',' >>"$tmp_json_file" fi done echo -n ']}, { "Name": "instance-type", "Values": [' >>"$tmp_json_file" IFS=',' read -ra items <<<"$instance_types" local array_size array_size=${#items[@]} for i in $(seq 0 $((array_size - 1))); do echo -n '"'"${items[$i]}"'"' >>"$tmp_json_file" if [[ $i -lt $((array_size - 1)) ]]; then echo -n ',' >>"$tmp_json_file" fi done echo -n ']}]' >>"$tmp_json_file" local response response=$(aws ec2 describe-instance-types --filters file://"$tmp_json_file" \ --query 'InstanceTypes[*].[InstanceType]' --output text) local error_code=$? rm "$tmp_json_file" if [[ $error_code -ne 0 ]]; then aws_cli_error_log $error_code echo "ERROR: AWS reports describe-instance-types operation failed." return 1 fi echo "$response" return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeInstanceTypes) in *AWS CLI Command Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe an instance type** The following `describe-instance-types` example displays details for the specified instance type. ``` aws ec2 describe-instance-types \ --instance-types t2.micro ``` Output: ``` { "InstanceTypes": [ { "InstanceType": "t2.micro", "CurrentGeneration": true, "FreeTierEligible": true, "SupportedUsageClasses": [ "on-demand", "spot" ], "SupportedRootDeviceTypes": [ "ebs" ], "BareMetal": false, "Hypervisor": "xen", "ProcessorInfo": { "SupportedArchitectures": [ "i386", "x86_64" ], "SustainedClockSpeedInGhz": 2.5 }, "VCpuInfo": { "DefaultVCpus": 1, "DefaultCores": 1, "DefaultThreadsPerCore": 1, "ValidCores": [ 1 ], "ValidThreadsPerCore": [ 1 ] }, "MemoryInfo": { "SizeInMiB": 1024 }, "InstanceStorageSupported": false, "EbsInfo": { "EbsOptimizedSupport": "unsupported", "EncryptionSupport": "supported" }, "NetworkInfo": { "NetworkPerformance": "Low to Moderate", "MaximumNetworkInterfaces": 2, "Ipv4AddressesPerInterface": 2, "Ipv6AddressesPerInterface": 2, "Ipv6Supported": true, "EnaSupport": "unsupported" }, "PlacementGroupInfo": { "SupportedStrategies": [ "partition", "spread" ] }, "HibernationSupported": false, "BurstablePerformanceSupported": true, "DedicatedHostsSupported": false, "AutoRecoverySupported": true } ] } ``` For more information, see [Instance Types](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-types.html) in *Amazon Elastic Compute Cloud User Guide for Linux Instances*. **Example 2: To filter the available instance types** You can specify a filter to scope the results to instance types that have a specific characteristic. The following `describe-instance-types` example lists the instance types that support hibernation. ``` aws ec2 describe-instance-types \ --filters Name=hibernation-supported,Values=true --query 'InstanceTypes[*].InstanceType' ``` Output: ``` [ "m5.8xlarge", "r3.large", "c3.8xlarge", "r5.large", "m4.4xlarge", "c4.large", "m5.xlarge", "m4.xlarge", "c3.large", "c4.8xlarge", "c4.4xlarge", "c5.xlarge", "c5.12xlarge", "r5.4xlarge", "c5.4xlarge" ] ``` For more information, see [Instance Types](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-types.html) in *Amazon Elastic Compute Cloud User Guide for Linux Instances*. + For API details, see [DescribeInstanceTypes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instance-types.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Asynchronously retrieves the instance types available in the current AWS region. *

* This method uses the AWS SDK's asynchronous API to fetch the available instance types * and then processes the response. It logs the memory information, network information, * and instance type for each instance type returned. Additionally, it returns a * {@link CompletableFuture} that resolves to the instance type string for the "t2.2xlarge" * instance type, if it is found in the response. If the "t2.2xlarge" instance type is not * found, an empty string is returned. *

* * @return a {@link CompletableFuture} that resolves to the instance type string for the * "t2.2xlarge" instance type, or an empty string if the instance type is not found */ public CompletableFuture getInstanceTypesAsync() { DescribeInstanceTypesRequest typesRequest = DescribeInstanceTypesRequest.builder() .maxResults(10) .build(); CompletableFuture response = getAsyncClient().describeInstanceTypes(typesRequest); response.whenComplete((resp, ex) -> { if (resp != null) { List instanceTypes = resp.instanceTypes(); for (InstanceTypeInfo type : instanceTypes) { logger.info("The memory information of this type is " + type.memoryInfo().sizeInMiB()); logger.info("Network information is " + type.networkInfo().toString()); logger.info("Instance type is " + type.instanceType().toString()); } } else { throw (RuntimeException) ex; } }); return response.thenApply(resp -> { for (InstanceTypeInfo type : resp.instanceTypes()) { String instanceType = type.instanceType().toString(); if (instanceType.equals("t2.2xlarge")) { return instanceType; } } return ""; }); } ``` + For API details, see [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstanceTypes) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { EC2Client, paginateDescribeInstanceTypes } from "@aws-sdk/client-ec2"; /** * Describes the specified instance types. By default, all instance types for the * current Region are described. Alternatively, you can filter the results. * @param {{ pageSize: string, supportedArch: string[], freeTier: boolean }} options */ export const main = async ({ pageSize, supportedArch, freeTier }) => { pageSize = Number.parseInt(pageSize); const client = new EC2Client({}); // The paginate function is a wrapper around the underlying command. const paginator = paginateDescribeInstanceTypes( // Without limiting the page size, this call can take a long time. pageSize is just sugar for // the MaxResults property in the underlying command. { client, pageSize }, { Filters: [ { Name: "processor-info.supported-architecture", Values: supportedArch, }, { Name: "free-tier-eligible", Values: [freeTier ? "true" : "false"] }, ], }, ); try { /** * @type {import('@aws-sdk/client-ec2').InstanceTypeInfo[]} */ const instanceTypes = []; for await (const page of paginator) { if (page.InstanceTypes.length) { instanceTypes.push(...page.InstanceTypes); // When we have at least 1 result, we can stop. if (instanceTypes.length >= 1) { break; } } } console.log( `Memory size in MiB for matching instance types:\n\n${instanceTypes.map((it) => `${it.InstanceType}: ${it.MemoryInfo.SizeInMiB} MiB`).join("\n")}`, ); } catch (caught) { if (caught instanceof Error && caught.name === "InvalidParameterValue") { console.warn(`${caught.message}`); return []; } throw caught; } }; ``` + For API details, see [DescribeInstanceTypes](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstanceTypesCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` // Get a list of instance types. suspend fun getInstanceTypesSc(): String { var instanceType = "" val filterObs = ArrayList() val filter = Filter { name = "processor-info.supported-architecture" values = listOf("arm64") } filterObs.add(filter) val typesRequest = DescribeInstanceTypesRequest { filters = filterObs maxResults = 10 } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.describeInstanceTypes(typesRequest) response.instanceTypes?.forEach { type -> println("The memory information of this type is ${type.memoryInfo?.sizeInMib}") println("Maximum number of network cards is ${type.networkInfo?.maximumNetworkCards}") instanceType = type.instanceType.toString() } return instanceType } } ``` + For API details, see [DescribeInstanceTypes](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class EC2InstanceWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface.""" def __init__( self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None ) -> None: """ Initializes the EC2InstanceWrapper with an EC2 client and optional instances. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that wrap instance actions. """ self.ec2_client = ec2_client self.instances = instances or [] @classmethod def from_client(cls) -> "EC2InstanceWrapper": """ Creates an EC2InstanceWrapper instance with a default EC2 client. :return: An instance of EC2InstanceWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def get_instance_types( self, architecture: str = "x86_64", sizes: List[str] = ["*.micro", "*.small"] ) -> List[Dict[str, Any]]: """ Gets instance types that support the specified architecture and size. See https://docs.aws.amazon.com/AWSEC2/latest/APIReference/API_DescribeInstanceTypes.html for a list of allowable parameters. :param architecture: The architecture supported by instance types. Default: 'x86_64'. :param sizes: The size of instance types. Default: '*.micro', '*.small', :return: A list of dictionaries representing instance types that support the specified architecture and size. """ try: inst_types = [] paginator = self.ec2_client.get_paginator("describe_instance_types") for page in paginator.paginate( Filters=[ { "Name": "processor-info.supported-architecture", "Values": [architecture], }, {"Name": "instance-type", "Values": sizes}, ] ): inst_types += page["InstanceTypes"] except ClientError as err: logger.error( f"Failed to get instance types: {architecture}, {','.join(map(str, sizes))}" ) error_code = err.response["Error"]["Code"] if error_code == "InvalidParameterValue": logger.error( "Parameters are invalid. " "Ensure architecture and size strings conform to DescribeInstanceTypes API reference." ) raise else: return inst_types ``` + For API details, see [DescribeInstanceTypes](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstanceTypes) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` /// List instance types that match an image's architecture and are free tier eligible. pub async fn list_instance_types(&self, image: &Image) -> Result, EC2Error> { let architecture = format!( "{}", image.architecture().ok_or_else(|| EC2Error::new(format!( "Image {:?} does not have a listed architecture", image.image_id() )))? ); let free_tier_eligible_filter = Filter::builder() .name("free-tier-eligible") .values("false") .build(); let supported_architecture_filter = Filter::builder() .name("processor-info.supported-architecture") .values(architecture) .build(); let response = self .client .describe_instance_types() .filters(free_tier_eligible_filter) .filters(supported_architecture_filter) .send() .await?; Ok(response .instance_types .unwrap_or_default() .into_iter() .filter_map(|iti| iti.instance_type) .collect()) } ``` + For API details, see [DescribeInstanceTypes](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instance_types) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` " Create filters for architecture and instance type patterns " iv_architecture = 'x86_64' DATA lt_filters TYPE /aws1/cl_ec2filter=>tt_filterlist. APPEND NEW /aws1/cl_ec2filter( iv_name = 'processor-info.supported-architecture' it_values = VALUE /aws1/cl_ec2valuestringlist_w=>tt_valuestringlist( ( NEW /aws1/cl_ec2valuestringlist_w( iv_architecture ) ) ) ) TO lt_filters. " Filter for instance type patterns like '*.micro', '*.small' APPEND NEW /aws1/cl_ec2filter( iv_name = 'instance-type' it_values = VALUE /aws1/cl_ec2valuestringlist_w=>tt_valuestringlist( ( NEW /aws1/cl_ec2valuestringlist_w( '*.micro' ) ) ( NEW /aws1/cl_ec2valuestringlist_w( '*.small' ) ) ) ) TO lt_filters. TRY. oo_result = lo_ec2->describeinstancetypes( it_filters = lt_filters ). " oo_result is returned for testing purposes. " DATA(lt_instance_types) = oo_result->get_instancetypes( ). MESSAGE 'Retrieved information about EC2 instance types.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DescribeInstanceTypes](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Return a list of instance types matching the specified architecture /// and instance sizes. /// /// - Parameters: /// - architecture: The architecture of the instance types to return, as /// a member of `EC2ClientTypes.ArchitectureValues`. /// - sizes: An array of one or more strings identifying sizes of /// instance type to accept. /// /// - Returns: An array of `EC2ClientTypes.InstanceTypeInfo` records /// describing the instance types matching the given requirements. func getMatchingInstanceTypes(architecture: EC2ClientTypes.ArchitectureValues = EC2ClientTypes.ArchitectureValues.x8664, sizes: [String] = ["*.micro", "*.small"]) async -> [EC2ClientTypes.InstanceTypeInfo] { var instanceTypes: [EC2ClientTypes.InstanceTypeInfo] = [] let archFilter = EC2ClientTypes.Filter( name: "processor-info.supported-architecture", values: [architecture.rawValue] ) let sizeFilter = EC2ClientTypes.Filter( name: "instance-type", values: sizes ) do { let pages = ec2Client.describeInstanceTypesPaginated( input: DescribeInstanceTypesInput( filters: [archFilter, sizeFilter] ) ) for try await page in pages { guard let types = page.instanceTypes else { return [] } instanceTypes += types } } catch { print("*** Error getting image types: \(error.localizedDescription)") return [] } return instanceTypes } ``` + For API details, see [DescribeInstanceTypes](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describeinstancetypes(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeInstances` with an AWS SDK or CLI The following code examples show how to use `DescribeInstances`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Build and manage a resilient service](example_cross_ResilientService_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Creating an Amazon ECS service for the EC2 launch type](example_ecs_GettingStarted_018_section.md) + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Get started with Marketplace Buyer](example_ec2_GettingStarted_030_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) + [Getting started with Elastic Load Balancing](example_elastic_load_balancing_v2_GettingStarted_058_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Get information about EC2 instances with a particular state. /// /// The name of the tag to filter on. /// The value of the tag to look for. /// True if successful. public async Task GetInstancesWithState(string state) { try { // Filters the results of the instance list. var filters = new List { new Filter { Name = $"instance-state-name", Values = new List { state, }, }, }; var request = new DescribeInstancesRequest { Filters = filters, }; Console.WriteLine($"\nShowing instances with state {state}"); var paginator = _amazonEC2.Paginators.DescribeInstances(request); await foreach (var response in paginator.Responses) { foreach (var reservation in response.Reservations) { foreach (var instance in reservation.Instances) { Console.Write($"Instance ID: {instance.InstanceId} "); Console.WriteLine($"\tCurrent State: {instance.State.Name}"); } } } return true; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidParameterValue") { _logger.LogError( $"Invalid parameter value for filtering instances."); } return false; } catch (Exception ex) { Console.WriteLine($"Couldn't list instances because: {ex.Message}"); return false; } } ``` + For API details, see [DescribeInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeInstances) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_describe_instances # # This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) instances. # # Parameters: # -i instance_id - The ID of the instance to describe (optional). # -q query - The query to filter the response (optional). # -h - Display help. # # Returns: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_describe_instances() { local instance_id query response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_describe_instances" echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) instances." echo " -i instance_id - The ID of the instance to describe (optional)." echo " -q query - The query to filter the response (optional)." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:q:h" option; do case "${option}" in i) instance_id="${OPTARG}" ;; q) query="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 local aws_cli_args=() if [[ -n "$instance_id" ]]; then # shellcheck disable=SC2206 aws_cli_args+=("--instance-ids" $instance_id) fi local query_arg="" if [[ -n "$query" ]]; then query_arg="--query '$query'" else query_arg="--query Reservations[*].Instances[*].[InstanceId,ImageId,InstanceType,KeyName,VpcId,PublicIpAddress,State.Name]" fi # shellcheck disable=SC2086 response=$(aws ec2 describe-instances \ "${aws_cli_args[@]}" \ $query_arg \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports describe-instances operation failed.$response" return 1 } echo "$response" return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [DescribeInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeInstances) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Describe all Amazon Elastic Compute Cloud (Amazon EC2) instances associated with an account. /*! \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::describeInstances( const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::DescribeInstancesRequest request; bool header = false; bool done = false; while (!done) { Aws::EC2::Model::DescribeInstancesOutcome outcome = ec2Client.DescribeInstances(request); if (outcome.IsSuccess()) { if (!header) { std::cout << std::left << std::setw(48) << "Name" << std::setw(20) << "ID" << std::setw(25) << "Ami" << std::setw(15) << "Type" << std::setw(15) << "State" << std::setw(15) << "Monitoring" << std::endl; header = true; } const std::vector &reservations = outcome.GetResult().GetReservations(); for (const auto &reservation: reservations) { const std::vector &instances = reservation.GetInstances(); for (const auto &instance: instances) { Aws::String instanceStateString = Aws::EC2::Model::InstanceStateNameMapper::GetNameForInstanceStateName( instance.GetState().GetName()); Aws::String typeString = Aws::EC2::Model::InstanceTypeMapper::GetNameForInstanceType( instance.GetInstanceType()); Aws::String monitorString = Aws::EC2::Model::MonitoringStateMapper::GetNameForMonitoringState( instance.GetMonitoring().GetState()); Aws::String name = "Unknown"; const std::vector &tags = instance.GetTags(); auto nameIter = std::find_if(tags.cbegin(), tags.cend(), [](const Aws::EC2::Model::Tag &tag) { return tag.GetKey() == "Name"; }); if (nameIter != tags.cend()) { name = nameIter->GetValue(); } std::cout << std::setw(48) << name << std::setw(20) << instance.GetInstanceId() << std::setw(25) << instance.GetImageId() << std::setw(15) << typeString << std::setw(15) << instanceStateString << std::setw(15) << monitorString << std::endl; } } if (!outcome.GetResult().GetNextToken().empty()) { request.SetNextToken(outcome.GetResult().GetNextToken()); } else { done = true; } } else { std::cerr << "Failed to describe EC2 instances:" << outcome.GetError().GetMessage() << std::endl; return false; } } return true; } ``` + For API details, see [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeInstances) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe an instance** The following `describe-instances` example describes the specified instance. ``` aws ec2 describe-instances \ --instance-ids i-1234567890abcdef0 ``` Output: ``` { "Reservations": [ { "Groups": [], "Instances": [ { "AmiLaunchIndex": 0, "ImageId": "ami-0abcdef1234567890", "InstanceId": "i-1234567890abcdef0", "InstanceType": "t3.nano", "KeyName": "my-key-pair", "LaunchTime": "2022-11-15T10:48:59+00:00", "Monitoring": { "State": "disabled" }, "Placement": { "AvailabilityZone": "us-east-2a", "GroupName": "", "Tenancy": "default" }, "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal", "PrivateIpAddress": "10-0-0-157", "ProductCodes": [], "PublicDnsName": "ec2-34-253-223-13.us-east-2.compute.amazonaws.com", "PublicIpAddress": "34.253.223.13", "State": { "Code": 16, "Name": "running" }, "StateTransitionReason": "", "SubnetId": "subnet-04a636d18e83cfacb", "VpcId": "vpc-1234567890abcdef0", "Architecture": "x86_64", "BlockDeviceMappings": [ { "DeviceName": "/dev/xvda", "Ebs": { "AttachTime": "2022-11-15T10:49:00+00:00", "DeleteOnTermination": true, "Status": "attached", "VolumeId": "vol-02e6ccdca7de29cf2" } } ], "ClientToken": "1234abcd-1234-abcd-1234-d46a8903e9bc", "EbsOptimized": true, "EnaSupport": true, "Hypervisor": "xen", "IamInstanceProfile": { "Arn": "arn:aws:iam::111111111111:instance-profile/AmazonSSMRoleForInstancesQuickSetup", "Id": "111111111111111111111" }, "NetworkInterfaces": [ { "Association": { "IpOwnerId": "amazon", "PublicDnsName": "ec2-34-253-223-13.us-east-2.compute.amazonaws.com", "PublicIp": "34.253.223.13" }, "Attachment": { "AttachTime": "2022-11-15T10:48:59+00:00", "AttachmentId": "eni-attach-1234567890abcdefg", "DeleteOnTermination": true, "DeviceIndex": 0, "Status": "attached", "NetworkCardIndex": 0 }, "Description": "", "Groups": [ { "GroupName": "launch-wizard-146", "GroupId": "sg-1234567890abcdefg" } ], "Ipv6Addresses": [], "MacAddress": "00:11:22:33:44:55", "NetworkInterfaceId": "eni-1234567890abcdefg", "OwnerId": "104024344472", "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal", "PrivateIpAddress": "10-0-0-157", "PrivateIpAddresses": [ { "Association": { "IpOwnerId": "amazon", "PublicDnsName": "ec2-34-253-223-13.us-east-2.compute.amazonaws.com", "PublicIp": "34.253.223.13" }, "Primary": true, "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal", "PrivateIpAddress": "10-0-0-157" } ], "SourceDestCheck": true, "Status": "in-use", "SubnetId": "subnet-1234567890abcdefg", "VpcId": "vpc-1234567890abcdefg", "InterfaceType": "interface" } ], "RootDeviceName": "/dev/xvda", "RootDeviceType": "ebs", "SecurityGroups": [ { "GroupName": "launch-wizard-146", "GroupId": "sg-1234567890abcdefg" } ], "SourceDestCheck": true, "Tags": [ { "Key": "Name", "Value": "my-instance" } ], "VirtualizationType": "hvm", "CpuOptions": { "CoreCount": 1, "ThreadsPerCore": 2 }, "CapacityReservationSpecification": { "CapacityReservationPreference": "open" }, "HibernationOptions": { "Configured": false }, "MetadataOptions": { "State": "applied", "HttpTokens": "optional", "HttpPutResponseHopLimit": 1, "HttpEndpoint": "enabled", "HttpProtocolIpv6": "disabled", "InstanceMetadataTags": "enabled" }, "EnclaveOptions": { "Enabled": false }, "PlatformDetails": "Linux/UNIX", "UsageOperation": "RunInstances", "UsageOperationUpdateTime": "2022-11-15T10:48:59+00:00", "PrivateDnsNameOptions": { "HostnameType": "ip-name", "EnableResourceNameDnsARecord": true, "EnableResourceNameDnsAAAARecord": false }, "MaintenanceOptions": { "AutoRecovery": "default" } } ], "OwnerId": "111111111111", "ReservationId": "r-1234567890abcdefg" } ] } ``` **Example 2: To filter for instances with the specified type** The following `describe-instances` example uses filters to scope the results to instances of the specified type. ``` aws ec2 describe-instances \ --filters Name=instance-type,Values=m5.large ``` For example output, see Example 1. For more information, see [List and filter using the CLI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Filtering.html#Filtering_Resources_CLI) in the *Amazon EC2 User Guide*. **Example 3: To filter for instances with the specified type and Availability Zone** The following `describe-instances` example uses multiple filters to scope the results to instances with the specified type that are also in the specified Availability Zone. ``` aws ec2 describe-instances \ --filters Name=instance-type,Values=t2.micro,t3.micro Name=availability-zone,Values=us-east-2c ``` For example output, see Example 1. **Example 4: To filter for instances with the specified type and Availability Zone using a JSON file** The following `describe-instances` example uses a JSON input file to perform the same filtering as the previous example. When filters get more complicated, they can be easier to specify in a JSON file. ``` aws ec2 describe-instances \ --filters file://filters.json ``` Contents of `filters.json`: ``` [ { "Name": "instance-type", "Values": ["t2.micro", "t3.micro"] }, { "Name": "availability-zone", "Values": ["us-east-2c"] } ] ``` For example output, see Example 1. **Example 5: To filter for instances with the specified Owner tag** The following `describe-instances` example uses tag filters to scope the results to instances that have a tag with the specified tag key (Owner), regardless of the tag value. ``` aws ec2 describe-instances \ --filters "Name=tag-key,Values=Owner" ``` For example output, see Example 1. **Example 6: To filter for instances with the specified my-team tag value** The following `describe-instances` example uses tag filters to scope the results to instances that have a tag with the specified tag value (my-team), regardless of the tag key. ``` aws ec2 describe-instances \ --filters "Name=tag-value,Values=my-team" ``` For example output, see Example 1. **Example 7: To filter for instances with the specified Owner tag and my-team value** The following `describe-instances` example uses tag filters to scope the results to instances that have the specified tag (Owner=my-team). ``` aws ec2 describe-instances \ --filters "Name=tag:Owner,Values=my-team" ``` For example output, see Example 1. **Example 8: To display only instance and subnet IDs for all instances** The following `describe-instances` examples use the `--query` parameter to display only the instance and subnet IDs for all instances, in JSON format. Linux and macOS: ``` aws ec2 describe-instances \ --query 'Reservations[*].Instances[*].{Instance:InstanceId,Subnet:SubnetId}' \ --output json ``` Windows: ``` aws ec2 describe-instances ^ --query "Reservations[*].Instances[*].{Instance:InstanceId,Subnet:SubnetId}" ^ --output json ``` Output: ``` [ { "Instance": "i-057750d42936e468a", "Subnet": "subnet-069beee9b12030077" }, { "Instance": "i-001efd250faaa6ffa", "Subnet": "subnet-0b715c6b7db68927a" }, { "Instance": "i-027552a73f021f3bd", "Subnet": "subnet-0250c25a1f4e15235" } ... ] ``` **Example 9: To filter instances of the specified type and only display their instance IDs** The following `describe-instances` example uses filters to scope the results to instances of the specified type and the `--query` parameter to display only the instance IDs. ``` aws ec2 describe-instances \ --filters "Name=instance-type,Values=t2.micro" \ --query "Reservations[*].Instances[*].[InstanceId]" \ --output text ``` Output: ``` i-031c0dc19de2fb70c i-00d8bff789a736b75 i-0b715c6b7db68927a i-0626d4edd54f1286d i-00b8ae04f9f99908e i-0fc71c25d2374130c ``` **Example 10: To filter instances of the specified type and only display their instance IDs, Availability Zone, and the specified tag value** The following `describe-instances` examples display the instance ID, Availability Zone, and the value of the `Name` tag for instances that have a tag with the name `tag-key`, in table format. Linux and macOS: ``` aws ec2 describe-instances \ --filters Name=tag-key,Values=Name \ --query 'Reservations[*].Instances[*].{Instance:InstanceId,AZ:Placement.AvailabilityZone,Name:Tags[?Key==`Name`]|[0].Value}' \ --output table ``` Windows: ``` aws ec2 describe-instances ^ --filters Name=tag-key,Values=Name ^ --query "Reservations[*].Instances[*].{Instance:InstanceId,AZ:Placement.AvailabilityZone,Name:Tags[?Key=='Name']|[0].Value}" ^ --output table ``` Output: ``` ------------------------------------------------------------- | DescribeInstances | +--------------+-----------------------+--------------------+ | AZ | Instance | Name | +--------------+-----------------------+--------------------+ | us-east-2b | i-057750d42936e468a | my-prod-server | | us-east-2a | i-001efd250faaa6ffa | test-server-1 | | us-east-2a | i-027552a73f021f3bd | test-server-2 | +--------------+-----------------------+--------------------+ ``` **Example 11: To describe instances in a partition placement group** The following `describe-instances` example describes the specified instance. The output includes the placement information for the instance, which contains the placement group name and the partition number for the instance. ``` aws ec2 describe-instances \ --instance-ids i-0123a456700123456 \ --query "Reservations[*].Instances[*].Placement" ``` Output: ``` [ [ { "AvailabilityZone": "us-east-1c", "GroupName": "HDFS-Group-A", "PartitionNumber": 3, "Tenancy": "default" } ] ] ``` For more information, see [Describing instances in a placement group](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/placement-groups.html#describe-instance-placement) in the *Amazon EC2 User Guide*. **Example 12: To filter to instances with the specified placement group and partition number** The following `describe-instances` example filters the results to only those instances with the specified placement group and partition number. ``` aws ec2 describe-instances \ --filters "Name=placement-group-name,Values=HDFS-Group-A" "Name=placement-partition-number,Values=7" ``` The following shows only the relevant information from the output. ``` "Instances": [ { "InstanceId": "i-0123a456700123456", "InstanceType": "r4.large", "Placement": { "AvailabilityZone": "us-east-1c", "GroupName": "HDFS-Group-A", "PartitionNumber": 7, "Tenancy": "default" } }, { "InstanceId": "i-9876a543210987654", "InstanceType": "r4.large", "Placement": { "AvailabilityZone": "us-east-1c", "GroupName": "HDFS-Group-A", "PartitionNumber": 7, "Tenancy": "default" } ], ``` For more information, see [Describing instances in a placement group](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/placement-groups.html#describe-instance-placement) in the *Amazon EC2 User Guide*. **Example 13: To filter to instances that are configured to allow access to tags from instance metadata** The following `describe-instances` example filters the results to only those instances that are configured to allow access to instance tags from instance metadata. ``` aws ec2 describe-instances \ --filters "Name=metadata-options.instance-metadata-tags,Values=enabled" \ --query "Reservations[*].Instances[*].InstanceId" \ --output text ``` The following shows the expected output. ``` i-1234567890abcdefg i-abcdefg1234567890 i-11111111aaaaaaaaa i-aaaaaaaa111111111 ``` For more information, see [Work with instance tags in instance metadata](https://docs.aws.amazon.com/en_us/AWSEC2/latest/UserGuide/Using_Tags.html#view-access-to-tags-in-IMDS) in the *Amazon EC2 User Guide*. + For API details, see [DescribeInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-instances.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Asynchronously describes the state of an EC2 instance. * The paginator helps you iterate over multiple pages of results. * * @param newInstanceId the ID of the EC2 instance to describe * @return a {@link CompletableFuture} that, when completed, contains a string describing the state of the EC2 instance */ public CompletableFuture describeEC2InstancesAsync(String newInstanceId) { DescribeInstancesRequest request = DescribeInstancesRequest.builder() .instanceIds(newInstanceId) .build(); DescribeInstancesPublisher paginator = getAsyncClient().describeInstancesPaginator(request); AtomicReference publicIpAddressRef = new AtomicReference<>(); return paginator.subscribe(response -> { response.reservations().stream() .flatMap(reservation -> reservation.instances().stream()) .filter(instance -> instance.instanceId().equals(newInstanceId)) .findFirst() .ifPresent(instance -> publicIpAddressRef.set(instance.publicIpAddress())); }).thenApply(v -> { String publicIpAddress = publicIpAddressRef.get(); if (publicIpAddress == null) { throw new RuntimeException("Instance with ID " + newInstanceId + " not found."); } return publicIpAddress; }).exceptionally(ex -> { logger.info("Failed to describe instances: " + ex.getMessage()); throw new RuntimeException("Failed to describe instances", ex); }); } ``` + For API details, see [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeInstances) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { EC2Client, paginateDescribeInstances } from "@aws-sdk/client-ec2"; /** * List all of your EC2 instances running with the provided architecture that * were launched in the past month. * @param {{ pageSize: string, architectures: string[] }} options */ export const main = async ({ pageSize, architectures }) => { pageSize = Number.parseInt(pageSize); const client = new EC2Client({}); const d = new Date(); const year = d.getFullYear(); const month = `0${d.getMonth() + 1}`.slice(-2); const launchTimePattern = `${year}-${month}-*`; const paginator = paginateDescribeInstances( { client, pageSize, }, { Filters: [ { Name: "architecture", Values: architectures }, { Name: "instance-state-name", Values: ["running"] }, { Name: "launch-time", Values: [launchTimePattern], }, ], }, ); try { /** * @type {import('@aws-sdk/client-ec2').Instance[]} */ const instanceList = []; for await (const page of paginator) { const { Reservations } = page; for (const reservation of Reservations) { instanceList.push(...reservation.Instances); } } console.log( `Running instances launched this month:\n\n${instanceList.map((instance) => instance.InstanceId).join("\n")}`, ); } catch (caught) { if (caught instanceof Error && caught.name === "InvalidParameterValue") { console.warn(`${caught.message}.`); } else { throw caught; } } }; ``` + For API details, see [DescribeInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeInstancesCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun describeEC2Instances() { val request = DescribeInstancesRequest { maxResults = 6 } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.describeInstances(request) response.reservations?.forEach { reservation -> reservation.instances?.forEach { instance -> println("Instance Id is ${instance.instanceId}") println("Image id is ${instance.imageId}") println("Instance type is ${instance.instanceType}") println("Instance state name is ${instance.state?.name}") println("monitoring information is ${instance.monitoring?.state}") } } } } ``` + For API details, see [DescribeInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified instance.** ``` (Get-EC2Instance -InstanceId i-12345678).Instances ``` **Output:** ``` AmiLaunchIndex : 0 Architecture : x86_64 BlockDeviceMappings : {/dev/sda1} ClientToken : TleEy1448154045270 EbsOptimized : False Hypervisor : xen IamInstanceProfile : Amazon.EC2.Model.IamInstanceProfile ImageId : ami-12345678 InstanceId : i-12345678 InstanceLifecycle : InstanceType : t2.micro KernelId : KeyName : my-key-pair LaunchTime : 12/4/2015 4:44:40 PM Monitoring : Amazon.EC2.Model.Monitoring NetworkInterfaces : {ip-10-0-2-172.us-west-2.compute.internal} Placement : Amazon.EC2.Model.Placement Platform : Windows PrivateDnsName : ip-10-0-2-172.us-west-2.compute.internal PrivateIpAddress : 10.0.2.172 ProductCodes : {} PublicDnsName : PublicIpAddress : RamdiskId : RootDeviceName : /dev/sda1 RootDeviceType : ebs SecurityGroups : {default} SourceDestCheck : True SpotInstanceRequestId : SriovNetSupport : State : Amazon.EC2.Model.InstanceState StateReason : StateTransitionReason : SubnetId : subnet-12345678 Tags : {Name} VirtualizationType : hvm VpcId : vpc-12345678 ``` **Example 2: This example describes all your instances in the current region, grouped by reservation. To see the instance details expand the Instances collection within each reservation object.** ``` Get-EC2Instance ``` **Output:** ``` GroupNames : {} Groups : {} Instances : {} OwnerId : 123456789012 RequesterId : 226008221399 ReservationId : r-c5df370c GroupNames : {} Groups : {} Instances : {} OwnerId : 123456789012 RequesterId : 854251627541 ReservationId : r-63e65bab ... ``` **Example 3: This example illustrates using a filter to query for EC2 instances in a specific subnet of a VPC.** ``` (Get-EC2Instance -Filter @{Name="vpc-id";Values="vpc-1a2bc34d"},@{Name="subnet-id";Values="subnet-1a2b3c4d"}).Instances ``` **Output:** ``` InstanceId InstanceType Platform PrivateIpAddress PublicIpAddress SecurityGroups SubnetId VpcId ---------- ------------ -------- ---------------- --------------- -------------- -------- ----- i-01af...82cf180e19 t2.medium Windows 10.0.0.98 ... subnet-1a2b3c4d vpc-1a2b3c4d i-0374...7e9d5b0c45 t2.xlarge Windows 10.0.0.53 ... subnet-1a2b3c4d vpc-1a2b3c4d ``` **Example 4: This example illustrates using a filter with multiple values to query for EC2 instances that are both running and stopped** ``` $InstanceParams = @{ Filter = @( @{'Name' = 'instance-state-name';'Values' = @("running","stopped")} ) } (Get-EC2Instance @InstanceParams).Instances ``` **Output:** ``` InstanceId InstanceType Platform PrivateIpAddress PublicIpAddress SecurityGroups SubnetId VpcId ---------- ------------ -------- ---------------- --------------- -------------- -------- ----- i-05a9...f6c5f46e18 t3.medium 10.0.1.7 ... subnet-1a2b3c4d vpc-1a2b3c4d i-02cf...945c4fdd07 t3.medium Windows 10.0.1.8 ... subnet-1a2b3c4d vpc-1a2b3c4d i-0ac0...c037f9f3a1 t3.xlarge Windows 10.0.1.10 ... subnet-1a2b3c4d vpc-1a2b3c4d i-066b...57b7b08888 t3.medium Windows 10.0.1.11 ... subnet-1a2b3c4d vpc-1a2b3c4d i-0fee...82e83ccd72 t3.medium Windows 10.0.1.5 ... subnet-1a2b3c4d vpc-1a2b3c4d i-0a68...274cc5043b t3.medium Windows 10.0.1.6 ... subnet-1a2b3c4d vpc-1a2b3c4d ``` **Example 5: This example illustrates using a filter with multiple values to query for EC2 instances that are both running and stopped and using the Select-Object cmdlet for choosing specific values to output.** ``` $InstanceParams = @{ Filter = @( @{'Name' = 'instance-state-name';'Values' = @("running","stopped")} ) } $SelectParams = @{ Property = @( "InstanceID", "InstanceType", "Platform", "PrivateIpAddress", @{Name="Name";Expression={$_.Tags[$_.Tags.Key.IndexOf("Name")].Value}}, @{Name="State";Expression={$_.State.Name}} ) } $result = Get-EC2Instance @InstanceParams $result.Instances | Select-Object @SelectParams | Format-Table -AutoSize ``` **Output:** ``` InstanceId InstanceType Platform PrivateIpAddress Name State ---------- ------------ -------- ---------------- ---- ----- i-05a9...f6c5f46e18 t3.medium 10.0.1.7 ec2-name-01 running i-02cf...945c4fdd07 t3.medium Windows 10.0.1.8 ec2-name-02 stopped i-0ac0...c037f9f3a1 t3.xlarge Windows 10.0.1.10 ec2-name-03 running i-066b...57b7b08888 t3.medium Windows 10.0.1.11 ec2-name-04 stopped i-0fee...82e83ccd72 t3.medium Windows 10.0.1.5 ec2-name-05 running i-0a68...274cc5043b t3.medium Windows 10.0.1.6 ec2-name-06 stopped ``` + For API details, see [DescribeInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified instance.** ``` (Get-EC2Instance -InstanceId i-12345678).Instances ``` **Output:** ``` AmiLaunchIndex : 0 Architecture : x86_64 BlockDeviceMappings : {/dev/sda1} ClientToken : TleEy1448154045270 EbsOptimized : False Hypervisor : xen IamInstanceProfile : Amazon.EC2.Model.IamInstanceProfile ImageId : ami-12345678 InstanceId : i-12345678 InstanceLifecycle : InstanceType : t2.micro KernelId : KeyName : my-key-pair LaunchTime : 12/4/2015 4:44:40 PM Monitoring : Amazon.EC2.Model.Monitoring NetworkInterfaces : {ip-10-0-2-172.us-west-2.compute.internal} Placement : Amazon.EC2.Model.Placement Platform : Windows PrivateDnsName : ip-10-0-2-172.us-west-2.compute.internal PrivateIpAddress : 10.0.2.172 ProductCodes : {} PublicDnsName : PublicIpAddress : RamdiskId : RootDeviceName : /dev/sda1 RootDeviceType : ebs SecurityGroups : {default} SourceDestCheck : True SpotInstanceRequestId : SriovNetSupport : State : Amazon.EC2.Model.InstanceState StateReason : StateTransitionReason : SubnetId : subnet-12345678 Tags : {Name} VirtualizationType : hvm VpcId : vpc-12345678 ``` **Example 2: This example describes all your instances in the current region, grouped by reservation. To see the instance details expand the Instances collection within each reservation object.** ``` Get-EC2Instance ``` **Output:** ``` GroupNames : {} Groups : {} Instances : {} OwnerId : 123456789012 RequesterId : 226008221399 ReservationId : r-c5df370c GroupNames : {} Groups : {} Instances : {} OwnerId : 123456789012 RequesterId : 854251627541 ReservationId : r-63e65bab ... ``` **Example 3: This example illustrates using a filter to query for EC2 instances in a specific subnet of a VPC.** ``` (Get-EC2Instance -Filter @{Name="vpc-id";Values="vpc-1a2bc34d"},@{Name="subnet-id";Values="subnet-1a2b3c4d"}).Instances ``` **Output:** ``` InstanceId InstanceType Platform PrivateIpAddress PublicIpAddress SecurityGroups SubnetId VpcId ---------- ------------ -------- ---------------- --------------- -------------- -------- ----- i-01af...82cf180e19 t2.medium Windows 10.0.0.98 ... subnet-1a2b3c4d vpc-1a2b3c4d i-0374...7e9d5b0c45 t2.xlarge Windows 10.0.0.53 ... subnet-1a2b3c4d vpc-1a2b3c4d ``` **Example 4: This example illustrates using a filter with multiple values to query for EC2 instances that are both running and stopped** ``` $InstanceParams = @{ Filter = @( @{'Name' = 'instance-state-name';'Values' = @("running","stopped")} ) } (Get-EC2Instance @InstanceParams).Instances ``` **Output:** ``` InstanceId InstanceType Platform PrivateIpAddress PublicIpAddress SecurityGroups SubnetId VpcId ---------- ------------ -------- ---------------- --------------- -------------- -------- ----- i-05a9...f6c5f46e18 t3.medium 10.0.1.7 ... subnet-1a2b3c4d vpc-1a2b3c4d i-02cf...945c4fdd07 t3.medium Windows 10.0.1.8 ... subnet-1a2b3c4d vpc-1a2b3c4d i-0ac0...c037f9f3a1 t3.xlarge Windows 10.0.1.10 ... subnet-1a2b3c4d vpc-1a2b3c4d i-066b...57b7b08888 t3.medium Windows 10.0.1.11 ... subnet-1a2b3c4d vpc-1a2b3c4d i-0fee...82e83ccd72 t3.medium Windows 10.0.1.5 ... subnet-1a2b3c4d vpc-1a2b3c4d i-0a68...274cc5043b t3.medium Windows 10.0.1.6 ... subnet-1a2b3c4d vpc-1a2b3c4d ``` **Example 5: This example illustrates using a filter with multiple values to query for EC2 instances that are both running and stopped and using the Select-Object cmdlet for choosing specific values to output.** ``` $InstanceParams = @{ Filter = @( @{'Name' = 'instance-state-name';'Values' = @("running","stopped")} ) } $SelectParams = @{ Property = @( "InstanceID", "InstanceType", "Platform", "PrivateIpAddress", @{Name="Name";Expression={$_.Tags[$_.Tags.Key.IndexOf("Name")].Value}}, @{Name="State";Expression={$_.State.Name}} ) } $result = Get-EC2Instance @InstanceParams $result.Instances | Select-Object @SelectParams | Format-Table -AutoSize ``` **Output:** ``` InstanceId InstanceType Platform PrivateIpAddress Name State ---------- ------------ -------- ---------------- ---- ----- i-05a9...f6c5f46e18 t3.medium 10.0.1.7 ec2-name-01 running i-02cf...945c4fdd07 t3.medium Windows 10.0.1.8 ec2-name-02 stopped i-0ac0...c037f9f3a1 t3.xlarge Windows 10.0.1.10 ec2-name-03 running i-066b...57b7b08888 t3.medium Windows 10.0.1.11 ec2-name-04 stopped i-0fee...82e83ccd72 t3.medium Windows 10.0.1.5 ec2-name-05 running i-0a68...274cc5043b t3.medium Windows 10.0.1.6 ec2-name-06 stopped ``` **Example 6: This example validates permissions for getting EC2 instances using the DryRun parameter without actually fetching them. Note: This throws an exception if succeeded which is the expected behavior.** ``` Get-EC2Tag -DryRun $true ``` **Output:** ``` Get-EC2Instance: Request would have succeeded, but DryRun flag is set. ``` + For API details, see [DescribeInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class EC2InstanceWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface.""" def __init__( self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None ) -> None: """ Initializes the EC2InstanceWrapper with an EC2 client and optional instances. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that wrap instance actions. """ self.ec2_client = ec2_client self.instances = instances or [] @classmethod def from_client(cls) -> "EC2InstanceWrapper": """ Creates an EC2InstanceWrapper instance with a default EC2 client. :return: An instance of EC2InstanceWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def display(self, state_filter: Optional[str] = "running") -> None: """ Displays information about instances, filtering by the specified state. :param state_filter: The instance state to include in the output. Only instances in this state will be displayed. Default is 'running'. Example states: 'running', 'stopped'. """ if not self.instances: logger.info("No instances to display.") return instance_ids = [instance["InstanceId"] for instance in self.instances] paginator = self.ec2_client.get_paginator("describe_instances") page_iterator = paginator.paginate(InstanceIds=instance_ids) try: for page in page_iterator: for reservation in page["Reservations"]: for instance in reservation["Instances"]: instance_state = instance["State"]["Name"] # Apply the state filter (default is 'running') if state_filter and instance_state != state_filter: continue # Skip this instance if it doesn't match the filter # Create a formatted string with instance details instance_info = ( f"• ID: {instance['InstanceId']}\n" f"• Image ID: {instance['ImageId']}\n" f"• Instance type: {instance['InstanceType']}\n" f"• Key name: {instance['KeyName']}\n" f"• VPC ID: {instance['VpcId']}\n" f"• Public IP: {instance.get('PublicIpAddress', 'N/A')}\n" f"• State: {instance_state}" ) print(instance_info) except ClientError as err: logger.error( f"Failed to display instance(s). : {' '.join(map(str, instance_ids))}" ) error_code = err.response["Error"]["Code"] if error_code == "InvalidInstanceID.NotFound": logger.error( "One or more instance IDs do not exist. " "Please verify the instance IDs and try again." ) raise ``` + For API details, see [DescribeInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeInstances) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` require 'aws-sdk-ec2' # @param ec2_resource [Aws::EC2::Resource] An initialized EC2 resource object. # @example # list_instance_ids_states(Aws::EC2::Resource.new(region: 'us-west-2')) def list_instance_ids_states(ec2_resource) response = ec2_resource.instances if response.count.zero? puts 'No instances found.' else puts 'Instances -- ID, state:' response.each do |instance| puts "#{instance.id}, #{instance.state.name}" end end rescue StandardError => e puts "Error getting information about instances: #{e.message}" end # Example usage: def run_me region = '' # Print usage information and then stop. if ARGV[0] == '--help' || ARGV[0] == '-h' puts 'Usage: ruby ec2-ruby-example-get-all-instance-info.rb REGION' # Replace us-west-2 with the AWS Region you're using for Amazon EC2. puts 'Example: ruby ec2-ruby-example-get-all-instance-info.rb us-west-2' exit 1 # If no values are specified at the command prompt, use these default values. # Replace us-west-2 with the AWS Region you're using for Amazon EC2. elsif ARGV.count.zero? region = 'us-west-2' # Otherwise, use the values as specified at the command prompt. else region = ARGV[0] end ec2_resource = Aws::EC2::Resource.new(region: region) list_instance_ids_states(ec2_resource) end run_me if $PROGRAM_NAME == __FILE__ ``` + For API details, see [DescribeInstances](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/DescribeInstances) in *AWS SDK for Ruby API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). Retrieve details for an EC2 Instance. ``` pub async fn describe_instance(&self, instance_id: &str) -> Result { let response = self .client .describe_instances() .instance_ids(instance_id) .send() .await?; let instance = response .reservations() .first() .ok_or_else(|| EC2Error::new(format!("No instance reservations for {instance_id}")))? .instances() .first() .ok_or_else(|| { EC2Error::new(format!("No instances in reservation for {instance_id}")) })?; Ok(instance.clone()) } ``` After creating an EC2 instance, retrieve and store its details. ``` /// Create an EC2 instance with the given ID on a given type, using a /// generated KeyPair and applying a list of security groups. pub async fn create( &mut self, ec2: &EC2, image_id: &str, instance_type: InstanceType, key_pair: &KeyPairInfo, security_groups: Vec<&SecurityGroup>, ) -> Result<(), EC2Error> { let instance_id = ec2 .create_instance(image_id, instance_type, key_pair, security_groups) .await?; let instance = ec2.describe_instance(&instance_id).await?; self.instance = Some(instance); Ok(()) } ``` + For API details, see [DescribeInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_instances) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. oo_result = lo_ec2->describeinstances( ). " oo_result is returned for testing purposes. " " Retrieving details of EC2 instances. " DATA: lv_istance_id TYPE /aws1/ec2string, lv_status TYPE /aws1/ec2instancestatename, lv_instance_type TYPE /aws1/ec2instancetype, lv_image_id TYPE /aws1/ec2string. LOOP AT oo_result->get_reservations( ) INTO DATA(lo_reservation). LOOP AT lo_reservation->get_instances( ) INTO DATA(lo_instance). lv_istance_id = lo_instance->get_instanceid( ). lv_status = lo_instance->get_state( )->get_name( ). lv_instance_type = lo_instance->get_instancetype( ). lv_image_id = lo_instance->get_imageid( ). ENDLOOP. ENDLOOP. MESSAGE 'Retrieved information about EC2 instances.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DescribeInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeInternetGateways` with a CLI The following code examples show how to use `DescribeInternetGateways`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) ------ #### [ CLI ] **AWS CLI** **To describe an internet gateway** The following `describe-internet-gateways` example describes the specified internet gateway. ``` aws ec2 describe-internet-gateways \ --internet-gateway-ids igw-0d0fb496b3EXAMPLE ``` Output: ``` { "InternetGateways": [ { "Attachments": [ { "State": "available", "VpcId": "vpc-0a60eb65b4EXAMPLE" } ], "InternetGatewayId": "igw-0d0fb496b3EXAMPLE", "OwnerId": "123456789012", "Tags": [ { "Key": "Name", "Value": "my-igw" } ] } ] } ``` For more information, see [Internet gateways](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Internet_Gateway.html) in the *Amazon VPC User Guide*. + For API details, see [DescribeInternetGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-internet-gateways.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified Internet gateway.** ``` Get-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d ``` **Output:** ``` Attachments InternetGatewayId Tags ----------- ----------------- ---- {vpc-1a2b3c4d} igw-1a2b3c4d {} ``` **Example 2: This example describes all your Internet gateways.** ``` Get-EC2InternetGateway ``` **Output:** ``` Attachments InternetGatewayId Tags ----------- ----------------- ---- {vpc-1a2b3c4d} igw-1a2b3c4d {} {} igw-2a3b4c5d {} ``` + For API details, see [DescribeInternetGateways](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified Internet gateway.** ``` Get-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d ``` **Output:** ``` Attachments InternetGatewayId Tags ----------- ----------------- ---- {vpc-1a2b3c4d} igw-1a2b3c4d {} ``` **Example 2: This example describes all your Internet gateways.** ``` Get-EC2InternetGateway ``` **Output:** ``` Attachments InternetGatewayId Tags ----------- ----------------- ---- {vpc-1a2b3c4d} igw-1a2b3c4d {} {} igw-2a3b4c5d {} ``` + For API details, see [DescribeInternetGateways](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeKeyPairs` with an AWS SDK or CLI The following code examples show how to use `DescribeKeyPairs`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Getting started with Amazon EMR](example_emr_GettingStarted_037_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Get information about an Amazon EC2 key pair. /// /// The name of the key pair. /// A list of key pair information. public async Task> DescribeKeyPairs(string keyPairName) { try { var request = new DescribeKeyPairsRequest(); if (!string.IsNullOrEmpty(keyPairName)) { request = new DescribeKeyPairsRequest { KeyNames = new List { keyPairName } }; } var response = await _amazonEC2.DescribeKeyPairsAsync(request); return response.KeyPairs.ToList(); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidKeyPair.NotFound") { _logger.LogError( $"A key pair called {keyPairName} does not exist."); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while describing the key pair.: {ex.Message}"); throw; } } ``` + For API details, see [DescribeKeyPairs](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeKeyPairs) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_describe_key_pairs # # This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) key pairs. # # Parameters: # -h - Display help. # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_describe_key_pairs() { local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_describe_key_pairs" echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) key pairs." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "h" option; do case "${option}" in h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 local response response=$(aws ec2 describe-key-pairs \ --query 'KeyPairs[*].[KeyName, KeyFingerprint]' \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports describe-key-pairs operation failed.$response" return 1 } echo "$response" return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [DescribeKeyPairs](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeKeyPairs) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Describe all Amazon Elastic Compute Cloud (Amazon EC2) instance key pairs. /*! \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::describeKeyPairs( const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::DescribeKeyPairsRequest request; Aws::EC2::Model::DescribeKeyPairsOutcome outcome = ec2Client.DescribeKeyPairs(request); if (outcome.IsSuccess()) { std::cout << std::left << std::setw(32) << "Name" << std::setw(64) << "Fingerprint" << std::endl; const std::vector &key_pairs = outcome.GetResult().GetKeyPairs(); for (const auto &key_pair: key_pairs) { std::cout << std::left << std::setw(32) << key_pair.GetKeyName() << std::setw(64) << key_pair.GetKeyFingerprint() << std::endl; } } else { std::cerr << "Failed to describe key pairs:" << outcome.GetError().GetMessage() << std::endl; } return outcome.IsSuccess(); } ``` + For API details, see [DescribeKeyPairs](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeKeyPairs) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **To display a key pair** The following `describe-key-pairs` example displays information about the specified key pair. ``` aws ec2 describe-key-pairs \ --key-names my-key-pair ``` Output: ``` { "KeyPairs": [ { "KeyPairId": "key-0b94643da6EXAMPLE", "KeyFingerprint": "1f:51:ae:28:bf:89:e9:d8:1f:25:5d:37:2d:7d:b8:ca:9f:f5:f1:6f", "KeyName": "my-key-pair", "KeyType": "rsa", "Tags": [], "CreateTime": "2022-05-27T21:51:16.000Z" } ] } ``` For more information, see [Describe public keys](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/describe-keys.html) in the *Amazon EC2 User Guide*. + For API details, see [DescribeKeyPairs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-key-pairs.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Asynchronously describes the key pairs associated with the current AWS account. * * @return a {@link CompletableFuture} containing the {@link DescribeKeyPairsResponse} object, which provides * information about the key pairs. */ public CompletableFuture describeKeysAsync() { CompletableFuture responseFuture = getAsyncClient().describeKeyPairs(); responseFuture.whenComplete((response, exception) -> { if (exception != null) { throw new RuntimeException("Failed to describe key pairs: " + exception.getMessage(), exception); } }); return responseFuture; } ``` + For API details, see [DescribeKeyPairs](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeKeyPairs) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { DescribeKeyPairsCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * List all key pairs in the current AWS account. * @param {{ dryRun: boolean }} */ export const main = async ({ dryRun }) => { const client = new EC2Client({}); const command = new DescribeKeyPairsCommand({ DryRun: dryRun }); try { const { KeyPairs } = await client.send(command); const keyPairList = KeyPairs.map( (kp) => ` • ${kp.KeyPairId}: ${kp.KeyName}`, ).join("\n"); console.log("The following key pairs were found in your account:"); console.log(keyPairList); } catch (caught) { if (caught instanceof Error && caught.name === "DryRunOperation") { console.log(`${caught.message}`); } else { throw caught; } } }; ``` + For API details, see [DescribeKeyPairs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeKeyPairsCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun describeEC2Keys() { Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.describeKeyPairs(DescribeKeyPairsRequest {}) response.keyPairs?.forEach { keyPair -> println("Found key pair with name ${keyPair.keyName} and fingerprint ${ keyPair.keyFingerprint}") } } } ``` + For API details, see [DescribeKeyPairs](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified key pair.** ``` Get-EC2KeyPair -KeyName my-key-pair ``` **Output:** ``` KeyFingerprint KeyName -------------- ------- 1f:51:ae:28:bf:89:e9:d8:1f:25:5d:37:2d:7d:b8:ca:9f:f5:f1:6f my-key-pair ``` **Example 2: This example describes all your key pairs.** ``` Get-EC2KeyPair ``` + For API details, see [DescribeKeyPairs](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified key pair.** ``` Get-EC2KeyPair -KeyName my-key-pair ``` **Output:** ``` KeyFingerprint KeyName -------------- ------- 1f:51:ae:28:bf:89:e9:d8:1f:25:5d:37:2d:7d:b8:ca:9f:f5:f1:6f my-key-pair ``` **Example 2: This example describes all your key pairs.** ``` Get-EC2KeyPair ``` + For API details, see [DescribeKeyPairs](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class KeyPairWrapper: """ Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) key pair actions. This class provides methods to create, list, and delete EC2 key pairs. """ def __init__( self, ec2_client: boto3.client, key_file_dir: Union[tempfile.TemporaryDirectory, str], key_pair: Optional[dict] = None, ): """ Initializes the KeyPairWrapper with the specified EC2 client, key file directory, and an optional key pair. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param key_file_dir: The folder where the private key information is stored. This should be a secure folder. :param key_pair: A dictionary representing the Boto3 KeyPair object. This is a high-level object that wraps key pair actions. Optional. """ self.ec2_client = ec2_client self.key_pair = key_pair self.key_file_path: Optional[str] = None self.key_file_dir = key_file_dir @classmethod def from_client(cls) -> "KeyPairWrapper": """ Class method to create an instance of KeyPairWrapper using a new EC2 client and a temporary directory for storing key files. :return: An instance of KeyPairWrapper. """ ec2_client = boto3.client("ec2") return cls(ec2_client, tempfile.TemporaryDirectory()) def list(self, limit: Optional[int] = None) -> None: """ Displays a list of key pairs for the current account. WARNING: Results are not paginated. :param limit: The maximum number of key pairs to list. If not specified, all key pairs will be listed. :raises ClientError: If there is an error in listing the key pairs. """ try: response = self.ec2_client.describe_key_pairs() key_pairs = response.get("KeyPairs", []) if limit: key_pairs = key_pairs[:limit] for key_pair in key_pairs: logger.info( f"Found {key_pair['KeyType']} key '{key_pair['KeyName']}' with fingerprint:" ) logger.info(f"\t{key_pair['KeyFingerprint']}") except ClientError as err: logger.error(f"Failed to list key pairs: {str(err)}") raise ``` + For API details, see [DescribeKeyPairs](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeKeyPairs) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn list_key_pair(&self) -> Result, EC2Error> { let output = self.client.describe_key_pairs().send().await?; Ok(output.key_pairs.unwrap_or_default()) } ``` + For API details, see [DescribeKeyPairs](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_key_pairs) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. oo_result = lo_ec2->describekeypairs( ). " oo_result is returned for testing purposes. " DATA(lt_key_pairs) = oo_result->get_keypairs( ). MESSAGE 'Retrieved information about key pairs.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DescribeKeyPairs](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Describe the key pairs associated with the user by outputting each key /// pair's name and fingerprint. func describeKeyPairs() async { do { let output = try await ec2Client.describeKeyPairs( input: DescribeKeyPairsInput() ) guard let keyPairs = output.keyPairs else { print("*** No key pairs list available.") return } for keyPair in keyPairs { print(keyPair.keyName ?? "", ":", keyPair.keyFingerprint ?? "") } } catch { print("*** Error: Unable to obtain a key pair list.") } } ``` + For API details, see [DescribeKeyPairs](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describekeypairs(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeNetworkAcls` with a CLI The following code examples show how to use `DescribeNetworkAcls`. ------ #### [ CLI ] **AWS CLI** **To describe your network ACLs** The following `describe-network-acls` example retrieves details about your network ACLs. ``` aws ec2 describe-network-acls ``` Output: ``` { "NetworkAcls": [ { "Associations": [ { "NetworkAclAssociationId": "aclassoc-0c1679dc41EXAMPLE", "NetworkAclId": "acl-0ea1f54ca7EXAMPLE", "SubnetId": "subnet-0931fc2fa5EXAMPLE" } ], "Entries": [ { "CidrBlock": "0.0.0.0/0", "Egress": true, "Protocol": "-1", "RuleAction": "allow", "RuleNumber": 100 }, { "CidrBlock": "0.0.0.0/0", "Egress": true, "Protocol": "-1", "RuleAction": "deny", "RuleNumber": 32767 }, { "CidrBlock": "0.0.0.0/0", "Egress": false, "Protocol": "-1", "RuleAction": "allow", "RuleNumber": 100 }, { "CidrBlock": "0.0.0.0/0", "Egress": false, "Protocol": "-1", "RuleAction": "deny", "RuleNumber": 32767 } ], "IsDefault": true, "NetworkAclId": "acl-0ea1f54ca7EXAMPLE", "Tags": [], "VpcId": "vpc-06e4ab6c6cEXAMPLE", "OwnerId": "111122223333" }, { "Associations": [], "Entries": [ { "CidrBlock": "0.0.0.0/0", "Egress": true, "Protocol": "-1", "RuleAction": "allow", "RuleNumber": 100 }, { "Egress": true, "Ipv6CidrBlock": "::/0", "Protocol": "-1", "RuleAction": "allow", "RuleNumber": 101 }, { "CidrBlock": "0.0.0.0/0", "Egress": true, "Protocol": "-1", "RuleAction": "deny", "RuleNumber": 32767 }, { "Egress": true, "Ipv6CidrBlock": "::/0", "Protocol": "-1", "RuleAction": "deny", "RuleNumber": 32768 }, { "CidrBlock": "0.0.0.0/0", "Egress": false, "Protocol": "-1", "RuleAction": "allow", "RuleNumber": 100 }, { "Egress": false, "Ipv6CidrBlock": "::/0", "Protocol": "-1", "RuleAction": "allow", "RuleNumber": 101 }, { "CidrBlock": "0.0.0.0/0", "Egress": false, "Protocol": "-1", "RuleAction": "deny", "RuleNumber": 32767 }, { "Egress": false, "Ipv6CidrBlock": "::/0", "Protocol": "-1", "RuleAction": "deny", "RuleNumber": 32768 } ], "IsDefault": true, "NetworkAclId": "acl-0e2a78e4e2EXAMPLE", "Tags": [], "VpcId": "vpc-03914afb3eEXAMPLE", "OwnerId": "111122223333" } ] } ``` For more information, see [Network ACLs](https://docs.aws.amazon.com/vpc/latest/userguide/vpc-network-acls.html) in the *AWS VPC User Guide*. + For API details, see [DescribeNetworkAcls](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-network-acls.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified network ACL.** ``` Get-EC2NetworkAcl -NetworkAclId acl-12345678 ``` **Output:** ``` Associations : {aclassoc-1a2b3c4d} Entries : {Amazon.EC2.Model.NetworkAclEntry, Amazon.EC2.Model.NetworkAclEntry} IsDefault : False NetworkAclId : acl-12345678 Tags : {Name} VpcId : vpc-12345678 ``` **Example 2: This example describes the rules for the specified network ACL.** ``` (Get-EC2NetworkAcl -NetworkAclId acl-12345678).Entries ``` **Output:** ``` CidrBlock : 0.0.0.0/0 Egress : True IcmpTypeCode : PortRange : Protocol : -1 RuleAction : deny RuleNumber : 32767 CidrBlock : 0.0.0.0/0 Egress : False IcmpTypeCode : PortRange : Protocol : -1 RuleAction : deny RuleNumber : 32767 ``` **Example 3: This example describes all your network ACLs.** ``` Get-EC2NetworkAcl ``` + For API details, see [DescribeNetworkAcls](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified network ACL.** ``` Get-EC2NetworkAcl -NetworkAclId acl-12345678 ``` **Output:** ``` Associations : {aclassoc-1a2b3c4d} Entries : {Amazon.EC2.Model.NetworkAclEntry, Amazon.EC2.Model.NetworkAclEntry} IsDefault : False NetworkAclId : acl-12345678 Tags : {Name} VpcId : vpc-12345678 ``` **Example 2: This example describes the rules for the specified network ACL.** ``` (Get-EC2NetworkAcl -NetworkAclId acl-12345678).Entries ``` **Output:** ``` CidrBlock : 0.0.0.0/0 Egress : True IcmpTypeCode : PortRange : Protocol : -1 RuleAction : deny RuleNumber : 32767 CidrBlock : 0.0.0.0/0 Egress : False IcmpTypeCode : PortRange : Protocol : -1 RuleAction : deny RuleNumber : 32767 ``` **Example 3: This example describes all your network ACLs.** ``` Get-EC2NetworkAcl ``` + For API details, see [DescribeNetworkAcls](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeNetworkInterfaceAttribute` with a CLI The following code examples show how to use `DescribeNetworkInterfaceAttribute`. ------ #### [ CLI ] **AWS CLI** **To describe the attachment attribute of a network interface** This example command describes the `attachment` attribute of the specified network interface. Command: ``` aws ec2 describe-network-interface-attribute --network-interface-id eni-686ea200 --attribute attachment ``` Output: ``` { "NetworkInterfaceId": "eni-686ea200", "Attachment": { "Status": "attached", "DeviceIndex": 0, "AttachTime": "2015-05-21T20:02:20.000Z", "InstanceId": "i-1234567890abcdef0", "DeleteOnTermination": true, "AttachmentId": "eni-attach-43348162", "InstanceOwnerId": "123456789012" } } ``` **To describe the description attribute of a network interface** This example command describes the `description` attribute of the specified network interface. Command: ``` aws ec2 describe-network-interface-attribute --network-interface-id eni-686ea200 --attribute description ``` Output: ``` { "NetworkInterfaceId": "eni-686ea200", "Description": { "Value": "My description" } } ``` **To describe the groupSet attribute of a network interface** This example command describes the `groupSet` attribute of the specified network interface. Command: ``` aws ec2 describe-network-interface-attribute --network-interface-id eni-686ea200 --attribute groupSet ``` Output: ``` { "NetworkInterfaceId": "eni-686ea200", "Groups": [ { "GroupName": "my-security-group", "GroupId": "sg-903004f8" } ] } ``` **To describe the sourceDestCheck attribute of a network interface** This example command describes the `sourceDestCheck` attribute of the specified network interface. Command: ``` aws ec2 describe-network-interface-attribute --network-interface-id eni-686ea200 --attribute sourceDestCheck ``` Output: ``` { "NetworkInterfaceId": "eni-686ea200", "SourceDestCheck": { "Value": true } } ``` + For API details, see [DescribeNetworkInterfaceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-network-interface-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified network interface.** ``` Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute Attachment ``` **Output:** ``` Attachment : Amazon.EC2.Model.NetworkInterfaceAttachment ``` **Example 2: This example describes the specified network interface.** ``` Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute Description ``` **Output:** ``` Description : My description ``` **Example 3: This example describes the specified network interface.** ``` Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute GroupSet ``` **Output:** ``` Groups : {my-security-group} ``` **Example 4: This example describes the specified network interface.** ``` Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute SourceDestCheck ``` **Output:** ``` SourceDestCheck : True ``` + For API details, see [DescribeNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified network interface.** ``` Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute Attachment ``` **Output:** ``` Attachment : Amazon.EC2.Model.NetworkInterfaceAttachment ``` **Example 2: This example describes the specified network interface.** ``` Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute Description ``` **Output:** ``` Description : My description ``` **Example 3: This example describes the specified network interface.** ``` Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute GroupSet ``` **Output:** ``` Groups : {my-security-group} ``` **Example 4: This example describes the specified network interface.** ``` Get-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-12345678 -Attribute SourceDestCheck ``` **Output:** ``` SourceDestCheck : True ``` + For API details, see [DescribeNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeNetworkInterfaces` with a CLI The following code examples show how to use `DescribeNetworkInterfaces`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Create an Amazon ECS Linux task for the Fargate launch type](example_ecs_GettingStarted_086_section.md) ------ #### [ CLI ] **AWS CLI** **To describe your network interfaces** This example describes all your network interfaces. Command: ``` aws ec2 describe-network-interfaces ``` Output: ``` { "NetworkInterfaces": [ { "Status": "in-use", "MacAddress": "02:2f:8f:b0:cf:75", "SourceDestCheck": true, "VpcId": "vpc-a01106c2", "Description": "my network interface", "Association": { "PublicIp": "203.0.113.12", "AssociationId": "eipassoc-0fbb766a", "PublicDnsName": "ec2-203-0-113-12.compute-1.amazonaws.com", "IpOwnerId": "123456789012" }, "NetworkInterfaceId": "eni-e5aa89a3", "PrivateIpAddresses": [ { "PrivateDnsName": "ip-10-0-1-17.ec2.internal", "Association": { "PublicIp": "203.0.113.12", "AssociationId": "eipassoc-0fbb766a", "PublicDnsName": "ec2-203-0-113-12.compute-1.amazonaws.com", "IpOwnerId": "123456789012" }, "Primary": true, "PrivateIpAddress": "10.0.1.17" } ], "RequesterManaged": false, "Ipv6Addresses": [], "PrivateDnsName": "ip-10-0-1-17.ec2.internal", "AvailabilityZone": "us-east-1d", "Attachment": { "Status": "attached", "DeviceIndex": 1, "AttachTime": "2013-11-30T23:36:42.000Z", "InstanceId": "i-1234567890abcdef0", "DeleteOnTermination": false, "AttachmentId": "eni-attach-66c4350a", "InstanceOwnerId": "123456789012" }, "Groups": [ { "GroupName": "default", "GroupId": "sg-8637d3e3" } ], "SubnetId": "subnet-b61f49f0", "OwnerId": "123456789012", "TagSet": [], "PrivateIpAddress": "10.0.1.17" }, { "Status": "in-use", "MacAddress": "02:58:f5:ef:4b:06", "SourceDestCheck": true, "VpcId": "vpc-a01106c2", "Description": "Primary network interface", "Association": { "PublicIp": "198.51.100.0", "IpOwnerId": "amazon" }, "NetworkInterfaceId": "eni-f9ba99bf", "PrivateIpAddresses": [ { "Association": { "PublicIp": "198.51.100.0", "IpOwnerId": "amazon" }, "Primary": true, "PrivateIpAddress": "10.0.1.149" } ], "RequesterManaged": false, "Ipv6Addresses": [], "AvailabilityZone": "us-east-1d", "Attachment": { "Status": "attached", "DeviceIndex": 0, "AttachTime": "2013-11-30T23:35:33.000Z", "InstanceId": "i-0598c7d356eba48d7", "DeleteOnTermination": true, "AttachmentId": "eni-attach-1b9db777", "InstanceOwnerId": "123456789012" }, "Groups": [ { "GroupName": "default", "GroupId": "sg-8637d3e3" } ], "SubnetId": "subnet-b61f49f0", "OwnerId": "123456789012", "TagSet": [], "PrivateIpAddress": "10.0.1.149" } ] } ``` This example describes network interfaces that have a tag with the key `Purpose` and the value `Prod`. Command: ``` aws ec2 describe-network-interfaces --filters Name=tag:Purpose,Values=Prod ``` Output: ``` { "NetworkInterfaces": [ { "Status": "available", "MacAddress": "12:2c:bd:f9:bf:17", "SourceDestCheck": true, "VpcId": "vpc-8941ebec", "Description": "ProdENI", "NetworkInterfaceId": "eni-b9a5ac93", "PrivateIpAddresses": [ { "PrivateDnsName": "ip-10-0-1-55.ec2.internal", "Primary": true, "PrivateIpAddress": "10.0.1.55" }, { "PrivateDnsName": "ip-10-0-1-117.ec2.internal", "Primary": false, "PrivateIpAddress": "10.0.1.117" } ], "RequesterManaged": false, "PrivateDnsName": "ip-10-0-1-55.ec2.internal", "AvailabilityZone": "us-east-1d", "Ipv6Addresses": [], "Groups": [ { "GroupName": "MySG", "GroupId": "sg-905002f5" } ], "SubnetId": "subnet-31d6c219", "OwnerId": "123456789012", "TagSet": [ { "Value": "Prod", "Key": "Purpose" } ], "PrivateIpAddress": "10.0.1.55" } ] } ``` + For API details, see [DescribeNetworkInterfaces](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-network-interfaces.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified network interface.** ``` Get-EC2NetworkInterface -NetworkInterfaceId eni-12345678 ``` **Output:** ``` Association : Attachment : Amazon.EC2.Model.NetworkInterfaceAttachment AvailabilityZone : us-west-2c Description : Groups : {my-security-group} MacAddress : 0a:e9:a6:19:4c:7f NetworkInterfaceId : eni-12345678 OwnerId : 123456789012 PrivateDnsName : ip-10-0-0-107.us-west-2.compute.internal PrivateIpAddress : 10.0.0.107 PrivateIpAddresses : {ip-10-0-0-107.us-west-2.compute.internal} RequesterId : RequesterManaged : False SourceDestCheck : True Status : in-use SubnetId : subnet-1a2b3c4d TagSet : {} VpcId : vpc-12345678 ``` **Example 2: This example describes all your network interfaces.** ``` Get-EC2NetworkInterface ``` + For API details, see [DescribeNetworkInterfaces](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified network interface.** ``` Get-EC2NetworkInterface -NetworkInterfaceId eni-12345678 ``` **Output:** ``` Association : Attachment : Amazon.EC2.Model.NetworkInterfaceAttachment AvailabilityZone : us-west-2c Description : Groups : {my-security-group} MacAddress : 0a:e9:a6:19:4c:7f NetworkInterfaceId : eni-12345678 OwnerId : 123456789012 PrivateDnsName : ip-10-0-0-107.us-west-2.compute.internal PrivateIpAddress : 10.0.0.107 PrivateIpAddresses : {ip-10-0-0-107.us-west-2.compute.internal} RequesterId : RequesterManaged : False SourceDestCheck : True Status : in-use SubnetId : subnet-1a2b3c4d TagSet : {} VpcId : vpc-12345678 ``` **Example 2: This example describes all your network interfaces.** ``` Get-EC2NetworkInterface ``` + For API details, see [DescribeNetworkInterfaces](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribePlacementGroups` with a CLI The following code examples show how to use `DescribePlacementGroups`. ------ #### [ CLI ] **AWS CLI** **To describe your placement groups** This example command describes all of your placement groups. Command: ``` aws ec2 describe-placement-groups ``` Output: ``` { "PlacementGroups": [ { "GroupName": "my-cluster", "State": "available", "Strategy": "cluster" }, ... ] } ``` + For API details, see [DescribePlacementGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-placement-groups.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified placement group.** ``` Get-EC2PlacementGroup -GroupName my-placement-group ``` **Output:** ``` GroupName State Strategy --------- ----- -------- my-placement-group available cluster ``` + For API details, see [DescribePlacementGroups](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified placement group.** ``` Get-EC2PlacementGroup -GroupName my-placement-group ``` **Output:** ``` GroupName State Strategy --------- ----- -------- my-placement-group available cluster ``` + For API details, see [DescribePlacementGroups](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribePrefixLists` with a CLI The following code examples show how to use `DescribePrefixLists`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ CLI ] **AWS CLI** **To describe prefix lists** This example lists all available prefix lists for the region. Command: ``` aws ec2 describe-prefix-lists ``` Output: ``` { "PrefixLists": [ { "PrefixListName": "com.amazonaws.us-east-1.s3", "Cidrs": [ "54.231.0.0/17" ], "PrefixListId": "pl-63a5400a" } ] } ``` + For API details, see [DescribePrefixLists](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-prefix-lists.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example fetches the available AWS services in a prefix list format for the region** ``` Get-EC2PrefixList ``` **Output:** ``` Cidrs PrefixListId PrefixListName ----- ------------ -------------- {52.94.5.0/24, 52.119.240.0/21, 52.94.24.0/23} pl-6fa54006 com.amazonaws.eu-west-1.dynamodb {52.218.0.0/17, 54.231.128.0/19} pl-6da54004 com.amazonaws.eu-west-1.s3 ``` + For API details, see [DescribePrefixLists](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example fetches the available AWS services in a prefix list format for the region** ``` Get-EC2PrefixList ``` **Output:** ``` Cidrs PrefixListId PrefixListName ----- ------------ -------------- {52.94.5.0/24, 52.119.240.0/21, 52.94.24.0/23} pl-6fa54006 com.amazonaws.eu-west-1.dynamodb {52.218.0.0/17, 54.231.128.0/19} pl-6da54004 com.amazonaws.eu-west-1.s3 ``` + For API details, see [DescribePrefixLists](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeRegions` with an AWS SDK or CLI The following code examples show how to use `DescribeRegions`. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Describe all Amazon Elastic Compute Cloud (Amazon EC2) Regions. /*! \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::describeRegions( const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::DescribeRegionsRequest request; Aws::EC2::Model::DescribeRegionsOutcome outcome = ec2Client.DescribeRegions(request); if (outcome.IsSuccess()) { std::cout << std::left << std::setw(32) << "RegionName" << std::setw(64) << "Endpoint" << std::endl; const auto ®ions = outcome.GetResult().GetRegions(); for (const auto ®ion: regions) { std::cout << std::left << std::setw(32) << region.GetRegionName() << std::setw(64) << region.GetEndpoint() << std::endl; } } else { std::cerr << "Failed to describe regions:" << outcome.GetError().GetMessage() << std::endl; } std::cout << std::endl; return outcome.IsSuccess(); } ``` + For API details, see [DescribeRegions](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeRegions) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe all of your enabled Regions** The following `describe-regions` example describes all of the Regions that are enabled for your account. ``` aws ec2 describe-regions ``` Output: ``` { "Regions": [ { "Endpoint": "ec2.eu-north-1.amazonaws.com", "RegionName": "eu-north-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ap-south-1.amazonaws.com", "RegionName": "ap-south-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.eu-west-3.amazonaws.com", "RegionName": "eu-west-3", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.eu-west-2.amazonaws.com", "RegionName": "eu-west-2", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.eu-west-1.amazonaws.com", "RegionName": "eu-west-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ap-northeast-3.amazonaws.com", "RegionName": "ap-northeast-3", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ap-northeast-2.amazonaws.com", "RegionName": "ap-northeast-2", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ap-northeast-1.amazonaws.com", "RegionName": "ap-northeast-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.sa-east-1.amazonaws.com", "RegionName": "sa-east-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ca-central-1.amazonaws.com", "RegionName": "ca-central-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ap-southeast-1.amazonaws.com", "RegionName": "ap-southeast-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ap-southeast-2.amazonaws.com", "RegionName": "ap-southeast-2", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.eu-central-1.amazonaws.com", "RegionName": "eu-central-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.us-east-1.amazonaws.com", "RegionName": "us-east-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.us-east-2.amazonaws.com", "RegionName": "us-east-2", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.us-west-1.amazonaws.com", "RegionName": "us-west-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.us-west-2.amazonaws.com", "RegionName": "us-west-2", "OptInStatus": "opt-in-not-required" } ] } ``` For more information, see [Regions and Zones](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html) in the *Amazon EC2 User Guide*. **Example 2: To describe enabled Regions with an endpoint whose name contains a specific string** The following `describe-regions` example describes all Regions that you have enabled that have the string "us" in the endpoint. ``` aws ec2 describe-regions \ --filters "Name=endpoint,Values=*us*" ``` Output: ``` { "Regions": [ { "Endpoint": "ec2.us-east-1.amazonaws.com", "RegionName": "us-east-1" }, { "Endpoint": "ec2.us-east-2.amazonaws.com", "RegionName": "us-east-2" }, { "Endpoint": "ec2.us-west-1.amazonaws.com", "RegionName": "us-west-1" }, { "Endpoint": "ec2.us-west-2.amazonaws.com", "RegionName": "us-west-2" } ] } ``` For more information, see [Regions and Zones](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html) in the *Amazon EC2 User Guide*. **Example 3: To describe all Regions** The following `describe-regions` example describes all available Regions, including Regions that are disabled. ``` aws ec2 describe-regions \ --all-regions ``` Output: ``` { "Regions": [ { "Endpoint": "ec2.eu-north-1.amazonaws.com", "RegionName": "eu-north-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ap-south-1.amazonaws.com", "RegionName": "ap-south-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.eu-west-3.amazonaws.com", "RegionName": "eu-west-3", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.eu-west-2.amazonaws.com", "RegionName": "eu-west-2", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.eu-west-1.amazonaws.com", "RegionName": "eu-west-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ap-northeast-3.amazonaws.com", "RegionName": "ap-northeast-3", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.me-south-1.amazonaws.com", "RegionName": "me-south-1", "OptInStatus": "not-opted-in" }, { "Endpoint": "ec2.ap-northeast-2.amazonaws.com", "RegionName": "ap-northeast-2", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ap-northeast-1.amazonaws.com", "RegionName": "ap-northeast-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.sa-east-1.amazonaws.com", "RegionName": "sa-east-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ca-central-1.amazonaws.com", "RegionName": "ca-central-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ap-east-1.amazonaws.com", "RegionName": "ap-east-1", "OptInStatus": "not-opted-in" }, { "Endpoint": "ec2.ap-southeast-1.amazonaws.com", "RegionName": "ap-southeast-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.ap-southeast-2.amazonaws.com", "RegionName": "ap-southeast-2", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.eu-central-1.amazonaws.com", "RegionName": "eu-central-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.us-east-1.amazonaws.com", "RegionName": "us-east-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.us-east-2.amazonaws.com", "RegionName": "us-east-2", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.us-west-1.amazonaws.com", "RegionName": "us-west-1", "OptInStatus": "opt-in-not-required" }, { "Endpoint": "ec2.us-west-2.amazonaws.com", "RegionName": "us-west-2", "OptInStatus": "opt-in-not-required" } ] } ``` For more information, see [Regions and Zones](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html) in the *Amazon EC2 User Guide*. **Example 4: To list the Region names only** The following `describe-regions` example uses the `--query` parameter to filter the output and return only the names of the Regions as text. ``` aws ec2 describe-regions \ --all-regions \ --query "Regions[].{Name:RegionName}" \ --output text ``` Output: ``` eu-north-1 ap-south-1 eu-west-3 eu-west-2 eu-west-1 ap-northeast-3 ap-northeast-2 me-south-1 ap-northeast-1 sa-east-1 ca-central-1 ap-east-1 ap-southeast-1 ap-southeast-2 eu-central-1 us-east-1 us-east-2 us-west-1 us-west-2 ``` For more information, see [Regions and Zones](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/using-regions-availability-zones.html) in the *Amazon EC2 User Guide*. + For API details, see [DescribeRegions](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-regions.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { DescribeRegionsCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * List all available AWS regions. * @param {{ regionNames: string[], includeOptInRegions: boolean }} options */ export const main = async ({ regionNames, includeOptInRegions }) => { const client = new EC2Client({}); const command = new DescribeRegionsCommand({ // By default this command will not show regions that require you to opt-in. // When AllRegions is true, even the regions that require opt-in will be returned. AllRegions: includeOptInRegions, // You can omit the Filters property if you want to get all regions. Filters: regionNames?.length ? [ { Name: "region-name", // You can specify multiple values for a filter. // You can also use '*' as a wildcard. This will return all // of the regions that start with `us-east-`. Values: regionNames, }, ] : undefined, }); try { const { Regions } = await client.send(command); const regionsList = Regions.map((reg) => ` • ${reg.RegionName}`); console.log("Found regions:"); console.log(regionsList.join("\n")); } catch (caught) { if (caught instanceof Error && caught.name === "DryRunOperation") { console.log(`${caught.message}`); } else { throw caught; } } }; ``` + For API details, see [DescribeRegions](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeRegionsCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the regions that are available to you.** ``` Get-EC2Region ``` **Output:** ``` Endpoint RegionName -------- ---------- ec2.eu-west-1.amazonaws.com eu-west-1 ec2.ap-southeast-1.amazonaws.com ap-southeast-1 ec2.ap-southeast-2.amazonaws.com ap-southeast-2 ec2.eu-central-1.amazonaws.com eu-central-1 ec2.ap-northeast-1.amazonaws.com ap-northeast-1 ec2.us-east-1.amazonaws.com us-east-1 ec2.sa-east-1.amazonaws.com sa-east-1 ec2.us-west-1.amazonaws.com us-west-1 ec2.us-west-2.amazonaws.com us-west-2 ``` + For API details, see [DescribeRegions](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the regions that are available to you.** ``` Get-EC2Region ``` **Output:** ``` Endpoint RegionName -------- ---------- ec2.eu-west-1.amazonaws.com eu-west-1 ec2.ap-southeast-1.amazonaws.com ap-southeast-1 ec2.ap-southeast-2.amazonaws.com ap-southeast-2 ec2.eu-central-1.amazonaws.com eu-central-1 ec2.ap-northeast-1.amazonaws.com ap-northeast-1 ec2.us-east-1.amazonaws.com us-east-1 ec2.sa-east-1.amazonaws.com sa-east-1 ec2.us-west-1.amazonaws.com us-west-1 ec2.us-west-2.amazonaws.com us-west-2 ``` + For API details, see [DescribeRegions](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` require 'aws-sdk-ec2' # @param ec2_client [Aws::EC2::Client] An initialized EC2 client. # @example # list_regions_endpoints(Aws::EC2::Client.new(region: 'us-west-2')) def list_regions_endpoints(ec2_client) result = ec2_client.describe_regions # Enable pretty printing. max_region_string_length = 16 max_endpoint_string_length = 33 # Print header. print 'Region' print ' ' * (max_region_string_length - 'Region'.length) print " Endpoint\n" print '-' * max_region_string_length print ' ' print '-' * max_endpoint_string_length print "\n" # Print Regions and their endpoints. result.regions.each do |region| print region.region_name print ' ' * (max_region_string_length - region.region_name.length) print ' ' print region.endpoint print "\n" end end # Displays a list of Amazon Elastic Compute Cloud (Amazon EC2) # Availability Zones available to you depending on the AWS Region # of the Amazon EC2 client. # # @param ec2_client [Aws::EC2::Client] An initialized EC2 client. # @example # list_availability_zones(Aws::EC2::Client.new(region: 'us-west-2')) def list_availability_zones(ec2_client) result = ec2_client.describe_availability_zones # Enable pretty printing. max_region_string_length = 16 max_zone_string_length = 18 max_state_string_length = 9 # Print header. print 'Region' print ' ' * (max_region_string_length - 'Region'.length) print ' Zone' print ' ' * (max_zone_string_length - 'Zone'.length) print " State\n" print '-' * max_region_string_length print ' ' print '-' * max_zone_string_length print ' ' print '-' * max_state_string_length print "\n" # Print Regions, Availability Zones, and their states. result.availability_zones.each do |zone| print zone.region_name print ' ' * (max_region_string_length - zone.region_name.length) print ' ' print zone.zone_name print ' ' * (max_zone_string_length - zone.zone_name.length) print ' ' print zone.state # Print any messages for this Availability Zone. if zone.messages.count.positive? print "\n" puts ' Messages for this zone:' zone.messages.each do |message| print " #{message.message}\n" end end print "\n" end end # Example usage: def run_me region = '' # Print usage information and then stop. if ARGV[0] == '--help' || ARGV[0] == '-h' puts 'Usage: ruby ec2-ruby-example-regions-availability-zones.rb REGION' # Replace us-west-2 with the AWS Region you're using for Amazon EC2. puts 'Example: ruby ec2-ruby-example-regions-availability-zones.rb us-west-2' exit 1 # If no values are specified at the command prompt, use these default values. # Replace us-west-2 with the AWS Region you're using for Amazon EC2. elsif ARGV.count.zero? region = 'us-west-2' # Otherwise, use the values as specified at the command prompt. else region = ARGV[0] end ec2_client = Aws::EC2::Client.new(region: region) puts 'AWS Regions for Amazon EC2 that are available to you:' list_regions_endpoints(ec2_client) puts "\n\nAmazon EC2 Availability Zones that are available to you for AWS Region '#{region}':" list_availability_zones(ec2_client) end run_me if $PROGRAM_NAME == __FILE__ ``` + For API details, see [DescribeRegions](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/DescribeRegions) in *AWS SDK for Ruby API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` async fn show_regions(client: &Client) -> Result<(), Error> { let rsp = client.describe_regions().send().await?; println!("Regions:"); for region in rsp.regions() { println!(" {}", region.region_name().unwrap()); } Ok(()) } ``` + For API details, see [DescribeRegions](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_regions) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. oo_result = lo_ec2->describeregions( ). " oo_result is returned for testing purposes. " DATA(lt_regions) = oo_result->get_regions( ). MESSAGE 'Retrieved information about Regions.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DescribeRegions](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeRouteTables` with an AWS SDK or CLI The following code examples show how to use `DescribeRouteTables`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon VPC Transit Gateway](example_vpc_TransitGatewayGettingStarted_section.md) ------ #### [ CLI ] **AWS CLI** **To describe your route tables** The following `describe-route-tables` example retrieves the details about your route tables ``` aws ec2 describe-route-tables ``` Output: ``` { "RouteTables": [ { "Associations": [ { "Main": true, "RouteTableAssociationId": "rtbassoc-0df3f54e06EXAMPLE", "RouteTableId": "rtb-09ba434c1bEXAMPLE" } ], "PropagatingVgws": [], "RouteTableId": "rtb-09ba434c1bEXAMPLE", "Routes": [ { "DestinationCidrBlock": "10.0.0.0/16", "GatewayId": "local", "Origin": "CreateRouteTable", "State": "active" }, { "DestinationCidrBlock": "0.0.0.0/0", "NatGatewayId": "nat-06c018cbd8EXAMPLE", "Origin": "CreateRoute", "State": "blackhole" } ], "Tags": [], "VpcId": "vpc-0065acced4EXAMPLE", "OwnerId": "111122223333" }, { "Associations": [ { "Main": true, "RouteTableAssociationId": "rtbassoc-9EXAMPLE", "RouteTableId": "rtb-a1eec7de" } ], "PropagatingVgws": [], "RouteTableId": "rtb-a1eec7de", "Routes": [ { "DestinationCidrBlock": "172.31.0.0/16", "GatewayId": "local", "Origin": "CreateRouteTable", "State": "active" }, { "DestinationCidrBlock": "0.0.0.0/0", "GatewayId": "igw-fEXAMPLE", "Origin": "CreateRoute", "State": "active" } ], "Tags": [], "VpcId": "vpc-3EXAMPLE", "OwnerId": "111122223333" }, { "Associations": [ { "Main": false, "RouteTableAssociationId": "rtbassoc-0b100c28b2EXAMPLE", "RouteTableId": "rtb-07a98f76e5EXAMPLE", "SubnetId": "subnet-0d3d002af8EXAMPLE" } ], "PropagatingVgws": [], "RouteTableId": "rtb-07a98f76e5EXAMPLE", "Routes": [ { "DestinationCidrBlock": "10.0.0.0/16", "GatewayId": "local", "Origin": "CreateRouteTable", "State": "active" }, { "DestinationCidrBlock": "0.0.0.0/0", "GatewayId": "igw-06cf664d80EXAMPLE", "Origin": "CreateRoute", "State": "active" } ], "Tags": [], "VpcId": "vpc-0065acced4EXAMPLE", "OwnerId": "111122223333" } ] } ``` For more information, see [Working with Route Tables](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Route_Tables.html#WorkWithRouteTables) in the *AWS VPC User Guide*. + For API details, see [DescribeRouteTables](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-route-tables.html) in *AWS CLI Command Reference*. ------ #### [ PHP ] **SDK for PHP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/ec2#code-examples). ``` /** * @param array $routeTableIds * @param array $filters * @return array */ public function describeRouteTables(array $routeTableIds = [], array $filters = []): array { $parameters = []; if($routeTableIds){ $parameters['RouteTableIds'] = $routeTableIds; } if($filters){ $parameters['Filters'] = $filters; } try { $paginator = $this->ec2Client->getPaginator("DescribeRouteTables", $parameters); $contents = []; foreach ($paginator as $result) { foreach ($result['RouteTables'] as $object) { $contents[] = $object['RouteTableId']; } } }catch (Ec2Exception $caught){ echo "There was a problem paginating the results of DescribeRouteTables: {$caught->getAwsErrorMessage()}\n"; throw $caught; } return $contents; } ``` + For API details, see [DescribeRouteTables](https://docs.aws.amazon.com/goto/SdkForPHPV3/ec2-2016-11-15/DescribeRouteTables) in *AWS SDK for PHP API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes all your route tables.** ``` Get-EC2RouteTable ``` **Output:** ``` DestinationCidrBlock : 10.0.0.0/16 DestinationPrefixListId : GatewayId : local InstanceId : InstanceOwnerId : NetworkInterfaceId : Origin : CreateRouteTable State : active VpcPeeringConnectionId : DestinationCidrBlock : 0.0.0.0/0 DestinationPrefixListId : GatewayId : igw-1a2b3c4d InstanceId : InstanceOwnerId : NetworkInterfaceId : Origin : CreateRoute State : active VpcPeeringConnectionId : ``` **Example 2: This example returns details for the specified route table.** ``` Get-EC2RouteTable -RouteTableId rtb-1a2b3c4d ``` **Example 3: This example describes the route tables for the specified VPC.** ``` Get-EC2RouteTable -Filter @{ Name="vpc-id"; Values="vpc-1a2b3c4d" } ``` **Output:** ``` Associations : {rtbassoc-12345678} PropagatingVgws : {} Routes : {, } RouteTableId : rtb-1a2b3c4d Tags : {} VpcId : vpc-1a2b3c4d ``` + For API details, see [DescribeRouteTables](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes all your route tables.** ``` Get-EC2RouteTable ``` **Output:** ``` DestinationCidrBlock : 10.0.0.0/16 DestinationPrefixListId : GatewayId : local InstanceId : InstanceOwnerId : NetworkInterfaceId : Origin : CreateRouteTable State : active VpcPeeringConnectionId : DestinationCidrBlock : 0.0.0.0/0 DestinationPrefixListId : GatewayId : igw-1a2b3c4d InstanceId : InstanceOwnerId : NetworkInterfaceId : Origin : CreateRoute State : active VpcPeeringConnectionId : ``` **Example 2: This example returns details for the specified route table.** ``` Get-EC2RouteTable -RouteTableId rtb-1a2b3c4d ``` **Example 3: This example describes the route tables for the specified VPC.** ``` Get-EC2RouteTable -Filter @{ Name="vpc-id"; Values="vpc-1a2b3c4d" } ``` **Output:** ``` Associations : {rtbassoc-12345678} PropagatingVgws : {} Routes : {, } RouteTableId : rtb-1a2b3c4d Tags : {} VpcId : vpc-1a2b3c4d ``` + For API details, see [DescribeRouteTables](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class VpcWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Amazon Virtual Private Cloud actions.""" def __init__(self, ec2_client: boto3.client): """ Initializes the VpcWrapper with an EC2 client. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. """ self.ec2_client = ec2_client @classmethod def from_client(cls) -> "VpcWrapper": """ Creates a VpcWrapper instance with a default EC2 client. :return: An instance of VpcWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def describe_route_tables(self, vpc_ids: list[str]) -> None: """ Displays information about the route tables in the specified VPC. :param vpc_ids: A list of VPC IDs. """ try: response = self.ec2_client.describe_route_tables( Filters=[{"Name": "vpc-id", "Values": vpc_ids}] ) pp(response["RouteTables"]) except ClientError as err: logger.error( "Couldn't describe route tables for VPCs %s. Here's why: %s: %s", vpc_ids, err.response["Error"]["Code"], err.response["Error"]["Message"], ) raise ``` + For API details, see [DescribeRouteTables](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeRouteTables) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` " Create filter for VPC ID " iv_vpc_id = 'vpc-abc123' DATA lt_filters TYPE /aws1/cl_ec2filter=>tt_filterlist. APPEND NEW /aws1/cl_ec2filter( iv_name = 'vpc-id' it_values = VALUE /aws1/cl_ec2valuestringlist_w=>tt_valuestringlist( ( NEW /aws1/cl_ec2valuestringlist_w( iv_vpc_id ) ) ) ) TO lt_filters. TRY. oo_result = lo_ec2->describeroutetables( it_filters = lt_filters ). " oo_result is returned for testing purposes. " DATA(lt_route_tables) = oo_result->get_routetables( ). MESSAGE 'Retrieved information about route tables.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DescribeRouteTables](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeScheduledInstanceAvailability` with a CLI The following code examples show how to use `DescribeScheduledInstanceAvailability`. ------ #### [ CLI ] **AWS CLI** **To describe an available schedule** This example describes a schedule that occurs every week on Sunday, starting on the specified date. Command: ``` aws ec2 describe-scheduled-instance-availability --recurrence Frequency=Weekly,Interval=1,OccurrenceDays=[1] --first-slot-start-time-range EarliestTime=2016-01-31T00:00:00Z,LatestTime=2016-01-31T04:00:00Z ``` Output: ``` { "ScheduledInstanceAvailabilitySet": [ { "AvailabilityZone": "us-west-2b", "TotalScheduledInstanceHours": 1219, "PurchaseToken": "eyJ2IjoiMSIsInMiOjEsImMiOi...", "MinTermDurationInDays": 366, "AvailableInstanceCount": 20, "Recurrence": { "OccurrenceDaySet": [ 1 ], "Interval": 1, "Frequency": "Weekly", "OccurrenceRelativeToEnd": false }, "Platform": "Linux/UNIX", "FirstSlotStartTime": "2016-01-31T00:00:00Z", "MaxTermDurationInDays": 366, "SlotDurationInHours": 23, "NetworkPlatform": "EC2-VPC", "InstanceType": "c4.large", "HourlyPrice": "0.095" }, ... ] } ``` To narrow the results, you can add filters that specify the operating system, network, and instance type. Command: --filters Name=platform,Values=Linux/UNIX Name=network-platform,Values=EC2-VPC Name=instance-type,Values=c4.large + For API details, see [DescribeScheduledInstanceAvailability](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-scheduled-instance-availability.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes a schedule that occurs every week on Sunday, starting on the specified date.** ``` Get-EC2ScheduledInstanceAvailability -Recurrence_Frequency Weekly -Recurrence_Interval 1 -Recurrence_OccurrenceDay 1 -FirstSlotStartTimeRange_EarliestTime 2016-01-31T00:00:00Z -FirstSlotStartTimeRange_LatestTime 2016-01-31T04:00:00Z ``` **Output:** ``` AvailabilityZone : us-west-2b AvailableInstanceCount : 20 FirstSlotStartTime : 1/31/2016 8:00:00 AM HourlyPrice : 0.095 InstanceType : c4.large MaxTermDurationInDays : 366 MinTermDurationInDays : 366 NetworkPlatform : EC2-VPC Platform : Linux/UNIX PurchaseToken : eyJ2IjoiMSIsInMiOjEsImMiOi... Recurrence : Amazon.EC2.Model.ScheduledInstanceRecurrence SlotDurationInHours : 23 TotalScheduledInstanceHours : 1219 ... ``` **Example 2: To narrow the results, you can add filters for criteria such as operating system, network, and instance type.** ``` -Filter @{ Name="platform";Values="Linux/UNIX" },@{ Name="network-platform";Values="EC2-VPC" },@{ Name="instance-type";Values="c4.large" } ``` + For API details, see [DescribeScheduledInstanceAvailability](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes a schedule that occurs every week on Sunday, starting on the specified date.** ``` Get-EC2ScheduledInstanceAvailability -Recurrence_Frequency Weekly -Recurrence_Interval 1 -Recurrence_OccurrenceDay 1 -FirstSlotStartTimeRange_EarliestTime 2016-01-31T00:00:00Z -FirstSlotStartTimeRange_LatestTime 2016-01-31T04:00:00Z ``` **Output:** ``` AvailabilityZone : us-west-2b AvailableInstanceCount : 20 FirstSlotStartTime : 1/31/2016 8:00:00 AM HourlyPrice : 0.095 InstanceType : c4.large MaxTermDurationInDays : 366 MinTermDurationInDays : 366 NetworkPlatform : EC2-VPC Platform : Linux/UNIX PurchaseToken : eyJ2IjoiMSIsInMiOjEsImMiOi... Recurrence : Amazon.EC2.Model.ScheduledInstanceRecurrence SlotDurationInHours : 23 TotalScheduledInstanceHours : 1219 ... ``` **Example 2: To narrow the results, you can add filters for criteria such as operating system, network, and instance type.** ``` -Filter @{ Name="platform";Values="Linux/UNIX" },@{ Name="network-platform";Values="EC2-VPC" },@{ Name="instance-type";Values="c4.large" } ``` + For API details, see [DescribeScheduledInstanceAvailability](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeScheduledInstances` with a CLI The following code examples show how to use `DescribeScheduledInstances`. ------ #### [ CLI ] **AWS CLI** **To describe your Scheduled Instances** This example describes the specified Scheduled Instance. Command: ``` aws ec2 describe-scheduled-instances --scheduled-instance-ids sci-1234-1234-1234-1234-123456789012 ``` Output: ``` { "ScheduledInstanceSet": [ { "AvailabilityZone": "us-west-2b", "ScheduledInstanceId": "sci-1234-1234-1234-1234-123456789012", "HourlyPrice": "0.095", "CreateDate": "2016-01-25T21:43:38.612Z", "Recurrence": { "OccurrenceDaySet": [ 1 ], "Interval": 1, "Frequency": "Weekly", "OccurrenceRelativeToEnd": false, "OccurrenceUnit": "" }, "Platform": "Linux/UNIX", "TermEndDate": "2017-01-31T09:00:00Z", "InstanceCount": 1, "SlotDurationInHours": 32, "TermStartDate": "2016-01-31T09:00:00Z", "NetworkPlatform": "EC2-VPC", "TotalScheduledInstanceHours": 1696, "NextSlotStartTime": "2016-01-31T09:00:00Z", "InstanceType": "c4.large" } ] } ``` This example describes all your Scheduled Instances. Command: ``` aws ec2 describe-scheduled-instances ``` + For API details, see [DescribeScheduledInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-scheduled-instances.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified Scheduled Instance.** ``` Get-EC2ScheduledInstance -ScheduledInstanceId sci-1234-1234-1234-1234-123456789012 ``` **Output:** ``` AvailabilityZone : us-west-2b CreateDate : 1/25/2016 1:43:38 PM HourlyPrice : 0.095 InstanceCount : 1 InstanceType : c4.large NetworkPlatform : EC2-VPC NextSlotStartTime : 1/31/2016 1:00:00 AM Platform : Linux/UNIX PreviousSlotEndTime : Recurrence : Amazon.EC2.Model.ScheduledInstanceRecurrence ScheduledInstanceId : sci-1234-1234-1234-1234-123456789012 SlotDurationInHours : 32 TermEndDate : 1/31/2017 1:00:00 AM TermStartDate : 1/31/2016 1:00:00 AM TotalScheduledInstanceHours : 1696 ``` **Example 2: This example describes all your Scheduled Instances.** ``` Get-EC2ScheduledInstance ``` + For API details, see [DescribeScheduledInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified Scheduled Instance.** ``` Get-EC2ScheduledInstance -ScheduledInstanceId sci-1234-1234-1234-1234-123456789012 ``` **Output:** ``` AvailabilityZone : us-west-2b CreateDate : 1/25/2016 1:43:38 PM HourlyPrice : 0.095 InstanceCount : 1 InstanceType : c4.large NetworkPlatform : EC2-VPC NextSlotStartTime : 1/31/2016 1:00:00 AM Platform : Linux/UNIX PreviousSlotEndTime : Recurrence : Amazon.EC2.Model.ScheduledInstanceRecurrence ScheduledInstanceId : sci-1234-1234-1234-1234-123456789012 SlotDurationInHours : 32 TermEndDate : 1/31/2017 1:00:00 AM TermStartDate : 1/31/2016 1:00:00 AM TotalScheduledInstanceHours : 1696 ``` **Example 2: This example describes all your Scheduled Instances.** ``` Get-EC2ScheduledInstance ``` + For API details, see [DescribeScheduledInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeSecurityGroups` with an AWS SDK or CLI The following code examples show how to use `DescribeSecurityGroups`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Create an Amazon ECS Linux task for the Fargate launch type](example_ecs_GettingStarted_086_section.md) + [Creating and managing a VPC Lattice service network](example_vpc_lattice_GettingStarted_055_section.md) + [Getting started with Amazon ElastiCache](example_ec2_GettingStarted_065_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Retrieve information for one or all Amazon EC2 security group. /// /// The optional Id of a specific Amazon EC2 security group. /// A list of security group information. public async Task> DescribeSecurityGroups(string groupId) { try { var securityGroups = new List(); var request = new DescribeSecurityGroupsRequest(); if (!string.IsNullOrEmpty(groupId)) { var groupIds = new List { groupId }; request.GroupIds = groupIds; } var paginatorForSecurityGroups = _amazonEC2.Paginators.DescribeSecurityGroups(request); await foreach (var securityGroup in paginatorForSecurityGroups.SecurityGroups) { securityGroups.Add(securityGroup); } return securityGroups; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidGroup.NotFound") { _logger.LogError( $"A security group {groupId} does not exist."); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while listing security groups. {ex.Message}"); throw; } } /// /// Display the information returned by the call to /// DescribeSecurityGroupsAsync. /// /// A list of security group information. public void DisplaySecurityGroupInfoAsync(SecurityGroup securityGroup) { Console.WriteLine($"{securityGroup.GroupName}"); Console.WriteLine("Ingress permissions:"); securityGroup.IpPermissions.ForEach(permission => { Console.WriteLine($"\tFromPort: {permission.FromPort}"); Console.WriteLine($"\tIpProtocol: {permission.IpProtocol}"); Console.Write($"\tIpv4Ranges: "); permission.Ipv4Ranges.ForEach(range => { Console.Write($"{range.CidrIp} "); }); Console.WriteLine($"\n\tIpv6Ranges:"); permission.Ipv6Ranges.ForEach(range => { Console.Write($"{range.CidrIpv6} "); }); Console.Write($"\n\tPrefixListIds: "); permission.PrefixListIds.ForEach(id => Console.Write($"{id.Id} ")); Console.WriteLine($"\n\tTo Port: {permission.ToPort}"); }); Console.WriteLine("Egress permissions:"); securityGroup.IpPermissionsEgress.ForEach(permission => { Console.WriteLine($"\tFromPort: {permission.FromPort}"); Console.WriteLine($"\tIpProtocol: {permission.IpProtocol}"); Console.Write($"\tIpv4Ranges: "); permission.Ipv4Ranges.ForEach(range => { Console.Write($"{range.CidrIp} "); }); Console.WriteLine($"\n\tIpv6Ranges:"); permission.Ipv6Ranges.ForEach(range => { Console.Write($"{range.CidrIpv6} "); }); Console.Write($"\n\tPrefixListIds: "); permission.PrefixListIds.ForEach(id => Console.Write($"{id.Id} ")); Console.WriteLine($"\n\tTo Port: {permission.ToPort}"); }); } ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeSecurityGroups) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_describe_security_groups # # This function describes one or more Amazon Elastic Compute Cloud (Amazon EC2) security groups. # # Parameters: # -g security_group_id - The ID of the security group to describe (optional). # # And: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_describe_security_groups() { local security_group_id response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_describe_security_groups" echo "Describes one or more Amazon Elastic Compute Cloud (Amazon EC2) security groups." echo " -g security_group_id - The ID of the security group to describe (optional)." echo "" } # Retrieve the calling parameters. while getopts "g:h" option; do case "${option}" in g) security_group_id="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 local query="SecurityGroups[*].[GroupName, GroupId, VpcId, IpPermissions[*].[IpProtocol, FromPort, ToPort, IpRanges[*].CidrIp]]" if [[ -n "$security_group_id" ]]; then response=$(aws ec2 describe-security-groups --group-ids "$security_group_id" --query "${query}" --output text) else response=$(aws ec2 describe-security-groups --query "${query}" --output text) fi local error_code=${?} if [[ $error_code -ne 0 ]]; then aws_cli_error_log $error_code errecho "ERROR: AWS reports describe-security-groups operation failed.$response" return 1 fi echo "$response" return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DescribeSecurityGroups) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Describe all Amazon Elastic Compute Cloud (Amazon EC2) security groups, or a specific group. /*! \param groupID: A group ID, ignored if empty. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::describeSecurityGroups(const Aws::String &groupID, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::DescribeSecurityGroupsRequest request; if (!groupID.empty()) { request.AddGroupIds(groupID); } Aws::String nextToken; do { if (!nextToken.empty()) { request.SetNextToken(nextToken); } Aws::EC2::Model::DescribeSecurityGroupsOutcome outcome = ec2Client.DescribeSecurityGroups(request); if (outcome.IsSuccess()) { std::cout << std::left << std::setw(32) << "Name" << std::setw(30) << "GroupId" << std::setw(30) << "VpcId" << std::setw(64) << "Description" << std::endl; const std::vector &securityGroups = outcome.GetResult().GetSecurityGroups(); for (const auto &securityGroup: securityGroups) { std::cout << std::left << std::setw(32) << securityGroup.GetGroupName() << std::setw(30) << securityGroup.GetGroupId() << std::setw(30) << securityGroup.GetVpcId() << std::setw(64) << securityGroup.GetDescription() << std::endl; } } else { std::cerr << "Failed to describe security groups:" << outcome.GetError().GetMessage() << std::endl; return false; } nextToken = outcome.GetResult().GetNextToken(); } while (!nextToken.empty()); return true; } ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/DescribeSecurityGroups) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe a security group** The following `describe-security-groups` example describes the specified security group. ``` aws ec2 describe-security-groups \ --group-ids sg-903004f8 ``` Output: ``` { "SecurityGroups": [ { "IpPermissionsEgress": [ { "IpProtocol": "-1", "IpRanges": [ { "CidrIp": "0.0.0.0/0" } ], "UserIdGroupPairs": [], "PrefixListIds": [] } ], "Description": "My security group", "Tags": [ { "Value": "SG1", "Key": "Name" } ], "IpPermissions": [ { "IpProtocol": "-1", "IpRanges": [], "UserIdGroupPairs": [ { "UserId": "123456789012", "GroupId": "sg-903004f8" } ], "PrefixListIds": [] }, { "PrefixListIds": [], "FromPort": 22, "IpRanges": [ { "Description": "Access from NY office", "CidrIp": "203.0.113.0/24" } ], "ToPort": 22, "IpProtocol": "tcp", "UserIdGroupPairs": [] } ], "GroupName": "MySecurityGroup", "VpcId": "vpc-1a2b3c4d", "OwnerId": "123456789012", "GroupId": "sg-903004f8", } ] } ``` **Example 2: To describe security groups that have specific rules** The following `describe-security-groups` example uses filters to scope the results to security groups that have a rule that allows SSH traffic (port 22) and a rule that allows traffic from all addresses (`0.0.0.0/0`). The example uses the `--query` parameter to display only the names of the security groups. Security groups must match all filters to be returned in the results; however, a single rule does not have to match all filters. For example, the output returns a security group with a rule that allows SSH traffic from a specific IP address and another rule that allows HTTP traffic from all addresses. ``` aws ec2 describe-security-groups \ --filters Name=ip-permission.from-port,Values=22 Name=ip-permission.to-port,Values=22 Name=ip-permission.cidr,Values='0.0.0.0/0' \ --query "SecurityGroups[*].[GroupName]" \ --output text ``` Output: ``` default my-security-group web-servers launch-wizard-1 ``` **Example 3: To describe security groups based on tags** The following `describe-security-groups` example uses filters to scope the results to security groups that include `test` in the security group name, and that have the tag `Test=To-delete`. The example uses the `--query` parameter to display only the names and IDs of the security groups. ``` aws ec2 describe-security-groups \ --filters Name=group-name,Values=*test* Name=tag:Test,Values=To-delete \ --query "SecurityGroups[*].{Name:GroupName,ID:GroupId}" ``` Output: ``` [ { "Name": "testfornewinstance", "ID": "sg-33bb22aa" }, { "Name": "newgrouptest", "ID": "sg-1a2b3c4d" } ] ``` For additional examples using tag filters, see [Working with tags](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#Using_Tags_CLI) in the *Amazon EC2 User Guide*. + For API details, see [DescribeSecurityGroups](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-security-groups.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Asynchronously describes the security groups for the specified group ID. * * @param groupName the name of the security group to describe * @return a {@link CompletableFuture} that represents the asynchronous operation * of describing the security groups. The future will complete with a * {@link DescribeSecurityGroupsResponse} object that contains the * security group information. */ public CompletableFuture describeSecurityGroupArnByNameAsync(String groupName) { DescribeSecurityGroupsRequest request = DescribeSecurityGroupsRequest.builder() .groupNames(groupName) .build(); DescribeSecurityGroupsPublisher paginator = getAsyncClient().describeSecurityGroupsPaginator(request); AtomicReference groupIdRef = new AtomicReference<>(); return paginator.subscribe(response -> { response.securityGroups().stream() .filter(securityGroup -> securityGroup.groupName().equals(groupName)) .findFirst() .ifPresent(securityGroup -> groupIdRef.set(securityGroup.groupId())); }).thenApply(v -> { String groupId = groupIdRef.get(); if (groupId == null) { throw new RuntimeException("No security group found with the name: " + groupName); } return groupId; }).exceptionally(ex -> { logger.info("Failed to describe security group: " + ex.getMessage()); throw new RuntimeException("Failed to describe security group", ex); }); } ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DescribeSecurityGroups) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { DescribeSecurityGroupsCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * Describes the specified security groups or all of your security groups. * @param {{ groupIds: string[] }} options */ export const main = async ({ groupIds = [] }) => { const client = new EC2Client({}); const command = new DescribeSecurityGroupsCommand({ GroupIds: groupIds, }); try { const { SecurityGroups } = await client.send(command); const sgList = SecurityGroups.map( (sg) => `• ${sg.GroupName} (${sg.GroupId}): ${sg.Description}`, ).join("\n"); if (sgList.length) { console.log(`Security groups:\n${sgList}`); } else { console.log("No security groups found."); } } catch (caught) { if (caught instanceof Error && caught.name === "InvalidGroupId.Malformed") { console.warn(`${caught.message}. Please provide a valid GroupId.`); } else if ( caught instanceof Error && caught.name === "InvalidGroup.NotFound" ) { console.warn(caught.message); } else { throw caught; } } }; ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSecurityGroupsCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun describeEC2SecurityGroups(groupId: String) { val request = DescribeSecurityGroupsRequest { groupIds = listOf(groupId) } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.describeSecurityGroups(request) response.securityGroups?.forEach { group -> println("Found Security Group with id ${group.groupId}, vpc id ${group.vpcId} and description ${group.description}") } } } ``` + For API details, see [DescribeSecurityGroups](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified security group for a VPC. When working with security groups belonging to a VPC you must use the security group ID (-GroupId parameter), not name (-GroupName parameter), to reference the group.** ``` Get-EC2SecurityGroup -GroupId sg-12345678 ``` **Output:** ``` Description : default VPC security group GroupId : sg-12345678 GroupName : default IpPermissions : {Amazon.EC2.Model.IpPermission} IpPermissionsEgress : {Amazon.EC2.Model.IpPermission} OwnerId : 123456789012 Tags : {} VpcId : vpc-12345678 ``` **Example 2: This example describes the specified security group for EC2-Classic. When working with security groups for EC2-Classic you may use either the group name (-GroupName parameter) or group ID (-GroupId parameter) to reference the security group.** ``` Get-EC2SecurityGroup -GroupName my-security-group ``` **Output:** ``` Description : my security group GroupId : sg-45678901 GroupName : my-security-group IpPermissions : {Amazon.EC2.Model.IpPermission, Amazon.EC2.Model.IpPermission} IpPermissionsEgress : {} OwnerId : 123456789012 Tags : {} VpcId : ``` **Example 3: This example retrieves all the security groups for the vpc-0fc1ff23456b789eb** ``` Get-EC2SecurityGroup -Filter @{Name="vpc-id";Values="vpc-0fc1ff23456b789eb"} ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified security group for a VPC. When working with security groups belonging to a VPC you must use the security group ID (-GroupId parameter), not name (-GroupName parameter), to reference the group.** ``` Get-EC2SecurityGroup -GroupId sg-12345678 ``` **Output:** ``` Description : default VPC security group GroupId : sg-12345678 GroupName : default IpPermissions : {Amazon.EC2.Model.IpPermission} IpPermissionsEgress : {Amazon.EC2.Model.IpPermission} OwnerId : 123456789012 Tags : {} VpcId : vpc-12345678 ``` **Example 2: This example describes the specified security group for EC2-Classic. When working with security groups for EC2-Classic you may use either the group name (-GroupName parameter) or group ID (-GroupId parameter) to reference the security group.** ``` Get-EC2SecurityGroup -GroupName my-security-group ``` **Output:** ``` Description : my security group GroupId : sg-45678901 GroupName : my-security-group IpPermissions : {Amazon.EC2.Model.IpPermission, Amazon.EC2.Model.IpPermission} IpPermissionsEgress : {} OwnerId : 123456789012 Tags : {} VpcId : ``` **Example 3: This example retrieves all the security groups for the vpc-0fc1ff23456b789eb** ``` Get-EC2SecurityGroup -Filter @{Name="vpc-id";Values="vpc-0fc1ff23456b789eb"} ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class SecurityGroupWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) security group actions.""" def __init__(self, ec2_client: boto3.client, security_group: Optional[str] = None): """ Initializes the SecurityGroupWrapper with an EC2 client and an optional security group ID. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param security_group: The ID of a security group to manage. This is a high-level identifier that represents the security group. """ self.ec2_client = ec2_client self.security_group = security_group @classmethod def from_client(cls) -> "SecurityGroupWrapper": """ Creates a SecurityGroupWrapper instance with a default EC2 client. :return: An instance of SecurityGroupWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def describe(self, security_group_id: Optional[str] = None) -> bool: """ Displays information about the specified security group or all security groups if no ID is provided. :param security_group_id: The ID of the security group to describe. If None, an open search is performed to describe all security groups. :returns: True if the description is successful. :raises ClientError: If there is an error describing the security group(s), such as an invalid security group ID. """ try: paginator = self.ec2_client.get_paginator("describe_security_groups") if security_group_id is None: # If no ID is provided, return all security groups. page_iterator = paginator.paginate() else: page_iterator = paginator.paginate(GroupIds=[security_group_id]) for page in page_iterator: for security_group in page["SecurityGroups"]: print(f"Security group: {security_group['GroupName']}") print(f"\tID: {security_group['GroupId']}") print(f"\tVPC: {security_group['VpcId']}") if security_group["IpPermissions"]: print("Inbound permissions:") pp(security_group["IpPermissions"]) return True except ClientError as err: logger.error("Failed to describe security group(s).") if err.response["Error"]["Code"] == "InvalidGroup.NotFound": logger.error( f"Security group {security_group_id} does not exist " f"because the specified security group ID was not found." ) raise ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSecurityGroups) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` async fn show_security_groups(client: &aws_sdk_ec2::Client, group_ids: Vec) { let response = client .describe_security_groups() .set_group_ids(Some(group_ids)) .send() .await; match response { Ok(output) => { for group in output.security_groups() { println!( "Found Security Group {} ({}), vpc id {} and description {}", group.group_name().unwrap_or("unknown"), group.group_id().unwrap_or("id-unknown"), group.vpc_id().unwrap_or("vpcid-unknown"), group.description().unwrap_or("(none)") ); } } Err(err) => { let err = err.into_service_error(); let meta = err.meta(); let message = meta.message().unwrap_or("unknown"); let code = meta.code().unwrap_or("unknown"); eprintln!("Error listing EC2 Security Groups: ({code}) {message}"); } } } ``` + For API details, see [DescribeSecurityGroups](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_security_groups) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. DATA lt_group_ids TYPE /aws1/cl_ec2groupidstrlist_w=>tt_groupidstringlist. APPEND NEW /aws1/cl_ec2groupidstrlist_w( iv_value = iv_group_id ) TO lt_group_ids. oo_result = lo_ec2->describesecuritygroups( it_groupids = lt_group_ids ). " oo_result is returned for testing purposes. " DATA(lt_security_groups) = oo_result->get_securitygroups( ). MESSAGE 'Retrieved information about security groups.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [DescribeSecurityGroups](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). Using pagination with `describeSecurityGroupsPaginated()`. ``` import AWSEC2 /// Return an array of strings giving the names of every security group /// the user is a member of. /// /// - Parameter ec2Client: The `EC2Client` to use when calling /// `describeSecurityGroupsPaginated()`. /// /// - Returns: An array of strings giving the names of every security /// group the user is a member of. func getSecurityGroupNames(ec2Client: EC2Client) async -> [String] { let pages = ec2Client.describeSecurityGroupsPaginated( input: DescribeSecurityGroupsInput() ) var groupNames: [String] = [] do { for try await page in pages { guard let groups = page.securityGroups else { print("*** Error: No groups returned.") continue } for group in groups { groupNames.append(group.groupName ?? "") } } } catch { print("*** Error: \(error.localizedDescription)") } return groupNames } ``` Without pagination. ``` import AWSEC2 func describeSecurityGroups(groupId: String) async -> Bool { do { let output = try await ec2Client.describeSecurityGroups( input: DescribeSecurityGroupsInput( groupIds: [groupId] ) ) guard let securityGroups = output.securityGroups else { print("No security groups found.") return true } for group in securityGroups { print("Group \(group.groupId ?? "") found with VPC \(group.vpcId ?? "")") } return true } catch { print("*** Error getting security group details: \(error.localizedDescription)") return false } } ``` + For API details, see [DescribeSecurityGroups](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/describesecuritygroups(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeSnapshotAttribute` with a CLI The following code examples show how to use `DescribeSnapshotAttribute`. ------ #### [ CLI ] **AWS CLI** **To describe the snapshot attributes for a snapshot** The following `describe-snapshot-attribute` example lists the accounts with which a snapshot is shared. ``` aws ec2 describe-snapshot-attribute \ --snapshot-id snap-01234567890abcedf \ --attribute createVolumePermission ``` Output: ``` { "SnapshotId": "snap-01234567890abcedf", "CreateVolumePermissions": [ { "UserId": "123456789012" } ] } ``` For more information, see [Share an Amazon EBS snapshot](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ebs-modifying-snapshot-permissions.html#share-unencrypted-snapshot) in the *Amazon Elastic Compute Cloud User Guide*. + For API details, see [DescribeSnapshotAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-snapshot-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified attribute of the specified snapshot.** ``` Get-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute ProductCodes ``` **Output:** ``` CreateVolumePermissions ProductCodes SnapshotId ----------------------- ------------ ---------- {} {} snap-12345678 ``` **Example 2: This example describes the specified attribute of the specified snapshot.** ``` (Get-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission).CreateVolumePermissions ``` **Output:** ``` Group UserId ----- ------ all ``` + For API details, see [DescribeSnapshotAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified attribute of the specified snapshot.** ``` Get-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute ProductCodes ``` **Output:** ``` CreateVolumePermissions ProductCodes SnapshotId ----------------------- ------------ ---------- {} {} snap-12345678 ``` **Example 2: This example describes the specified attribute of the specified snapshot.** ``` (Get-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission).CreateVolumePermissions ``` **Output:** ``` Group UserId ----- ------ all ``` + For API details, see [DescribeSnapshotAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeSnapshots` with an AWS SDK or CLI The following code examples show how to use `DescribeSnapshots`. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe a snapshot** The following `describe-snapshots` example describes the specified snapshot. ``` aws ec2 describe-snapshots \ --snapshot-ids snap-1234567890abcdef0 ``` Output: ``` { "Snapshots": [ { "Description": "This is my snapshot", "Encrypted": false, "VolumeId": "vol-049df61146c4d7901", "State": "completed", "VolumeSize": 8, "StartTime": "2019-02-28T21:28:32.000Z", "Progress": "100%", "OwnerId": "012345678910", "SnapshotId": "snap-01234567890abcdef", "Tags": [ { "Key": "Stack", "Value": "test" } ] } ] } ``` For more information, see [Amazon EBS snapshots](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/EBSSnapshots.html) in the *Amazon EC2 User Guide*. **Example 2: To describe snapshots based on filters** The following `describe-snapshots` example uses filters to scope the results to snapshots owned by your AWS account that are in the `pending` state. The example uses the `--query` parameter to display only the snapshot IDs and the time the snapshot was started. ``` aws ec2 describe-snapshots \ --owner-ids self \ --filters Name=status,Values=pending \ --query "Snapshots[*].{ID:SnapshotId,Time:StartTime}" ``` Output: ``` [ { "ID": "snap-1234567890abcdef0", "Time": "2019-08-04T12:48:18.000Z" }, { "ID": "snap-066877671789bd71b", "Time": "2019-08-04T02:45:16.000Z }, ... ] ``` The following `describe-snapshots` example uses filters to scope the results to snapshots created from the specified volume. The example uses the `--query` parameter to display only the snapshot IDs. ``` aws ec2 describe-snapshots \ --filters Name=volume-id,Values=049df61146c4d7901 \ --query "Snapshots[*].[SnapshotId]" \ --output text ``` Output: ``` snap-1234567890abcdef0 snap-08637175a712c3fb9 ... ``` For additional examples using filters, see [Listing and filtering your resources](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Filtering.html#Filtering_Resources_CLI) in the *Amazon EC2 User Guide*. **Example 3: To describe snapshots based on tags** The following `describe-snapshots` example uses tag filters to scope the results to snapshots that have the tag `Stack=Prod`. ``` aws ec2 describe-snapshots \ --filters Name=tag:Stack,Values=prod ``` For an example of the output for `describe-snapshots`, see Example 1. For additional examples using tag filters, see [Working with tags](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#Using_Tags_CLI) in the *Amazon EC2 User Guide*. **Example 4: To describe snapshots based on age** The following `describe-snapshots` example uses JMESPath expressions to describe all snapshots created by your AWS account before the specified date. It displays only the snapshot IDs. ``` aws ec2 describe-snapshots \ --owner-ids 012345678910 \ --query "Snapshots[?(StartTime<='2020-03-31')].[SnapshotId]" ``` For additional examples using filters, see [Listing and filtering your resources](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Filtering.html#Filtering_Resources_CLI) in the *Amazon EC2 User Guide*. **Example 5: To view only archived snapshots** The following `describe-snapshots` example lists only snapshots that are stored in the archive tier. ``` aws ec2 describe-snapshots \ --filters "Name=storage-tier,Values=archive" ``` Output: ``` { "Snapshots": [ { "Description": "Snap A", "Encrypted": false, "VolumeId": "vol-01234567890aaaaaa", "State": "completed", "VolumeSize": 8, "StartTime": "2021-09-07T21:00:00.000Z", "Progress": "100%", "OwnerId": "123456789012", "SnapshotId": "snap-01234567890aaaaaa", "StorageTier": "archive", "Tags": [] }, ] } ``` For more information, see [View archived snapshots](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/working-with-snapshot-archiving.html#view-archived-snapshot) in the *Amazon Elastic Compute Cloud User Guide*. + For API details, see [DescribeSnapshots](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-snapshots.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified snapshot.** ``` Get-EC2Snapshot -SnapshotId snap-12345678 ``` **Output:** ``` DataEncryptionKeyId : Description : Created by CreateImage(i-1a2b3c4d) for ami-12345678 from vol-12345678 Encrypted : False KmsKeyId : OwnerAlias : OwnerId : 123456789012 Progress : 100% SnapshotId : snap-12345678 StartTime : 10/23/2014 6:01:28 AM State : completed StateMessage : Tags : {} VolumeId : vol-12345678 VolumeSize : 8 ``` **Example 2: This example describes the snapshots that have a 'Name' tag.** ``` Get-EC2Snapshot | ? { $_.Tags.Count -gt 0 -and $_.Tags.Key -eq "Name" } ``` **Example 3: This example describes the snapshots that have a 'Name' tag with the value 'TestValue'.** ``` Get-EC2Snapshot | ? { $_.Tags.Count -gt 0 -and $_.Tags.Key -eq "Name" -and $_.Tags.Value -eq "TestValue" } ``` **Example 4: This example describes all your snapshots.** ``` Get-EC2Snapshot -Owner self ``` + For API details, see [DescribeSnapshots](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified snapshot.** ``` Get-EC2Snapshot -SnapshotId snap-12345678 ``` **Output:** ``` DataEncryptionKeyId : Description : Created by CreateImage(i-1a2b3c4d) for ami-12345678 from vol-12345678 Encrypted : False KmsKeyId : OwnerAlias : OwnerId : 123456789012 Progress : 100% SnapshotId : snap-12345678 StartTime : 10/23/2014 6:01:28 AM State : completed StateMessage : Tags : {} VolumeId : vol-12345678 VolumeSize : 8 ``` **Example 2: This example describes the snapshots that have a 'Name' tag.** ``` Get-EC2Snapshot | ? { $_.Tags.Count -gt 0 -and $_.Tags.Key -eq "Name" } ``` **Example 3: This example describes the snapshots that have a 'Name' tag with the value 'TestValue'.** ``` Get-EC2Snapshot | ? { $_.Tags.Count -gt 0 -and $_.Tags.Key -eq "Name" -and $_.Tags.Value -eq "TestValue" } ``` **Example 4: This example describes all your snapshots.** ``` Get-EC2Snapshot -Owner self ``` + For API details, see [DescribeSnapshots](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ebs#code-examples). Shows the state of a snapshot. ``` async fn show_state(client: &Client, id: &str) -> Result<(), Error> { let resp = client .describe_snapshots() .filters(Filter::builder().name("snapshot-id").values(id).build()) .send() .await?; println!( "State: {}", resp.snapshots().first().unwrap().state().unwrap().as_ref() ); Ok(()) } ``` ``` async fn show_snapshots(client: &Client) -> Result<(), Error> { // "self" represents your account ID. // You can list the snapshots for any account by replacing // "self" with that account ID. let resp = client.describe_snapshots().owner_ids("self").send().await?; let snapshots = resp.snapshots(); let length = snapshots.len(); for snapshot in snapshots { println!( "ID: {}", snapshot.snapshot_id().unwrap_or_default() ); println!( "Description: {}", snapshot.description().unwrap_or_default() ); println!("State: {}", snapshot.state().unwrap().as_ref()); println!(); } println!(); println!("Found {} snapshot(s)", length); println!(); Ok(()) } ``` + For API details, see [DescribeSnapshots](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.describe_snapshots) in *AWS SDK for Rust API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeSpotDatafeedSubscription` with a CLI The following code examples show how to use `DescribeSpotDatafeedSubscription`. ------ #### [ CLI ] **AWS CLI** **To describe Spot Instance datafeed subscription for an account** This example command describes the data feed for the account. Command: ``` aws ec2 describe-spot-datafeed-subscription ``` Output: ``` { "SpotDatafeedSubscription": { "OwnerId": "123456789012", "Prefix": "spotdata", "Bucket": "amzn-s3-demo-bucket", "State": "Active" } } ``` + For API details, see [DescribeSpotDatafeedSubscription](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-datafeed-subscription.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes your Spot instance data feed.** ``` Get-EC2SpotDatafeedSubscription ``` **Output:** ``` Bucket : amzn-s3-demo-bucket Fault : OwnerId : 123456789012 Prefix : spotdata State : Active ``` + For API details, see [DescribeSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes your Spot instance data feed.** ``` Get-EC2SpotDatafeedSubscription ``` **Output:** ``` Bucket : amzn-s3-demo-bucket Fault : OwnerId : 123456789012 Prefix : spotdata State : Active ``` + For API details, see [DescribeSpotDatafeedSubscription](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeSpotFleetInstances` with a CLI The following code examples show how to use `DescribeSpotFleetInstances`. ------ #### [ CLI ] **AWS CLI** **To describe the Spot Instances associated with a Spot fleet** This example command lists the Spot instances associated with the specified Spot fleet. Command: ``` aws ec2 describe-spot-fleet-instances --spot-fleet-request-id sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE ``` Output: ``` { "ActiveInstances": [ { "InstanceId": "i-1234567890abcdef0", "InstanceType": "m3.medium", "SpotInstanceRequestId": "sir-08b93456" }, ... ], "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE" } ``` + For API details, see [DescribeSpotFleetInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-fleet-instances.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the instances associated with the specified Spot fleet request.** ``` Get-EC2SpotFleetInstance -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE ``` **Output:** ``` InstanceId InstanceType SpotInstanceRequestId ---------- ------------ --------------------- i-f089262a c3.large sir-12345678 i-7e8b24a4 c3.large sir-87654321 ``` + For API details, see [DescribeSpotFleetInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the instances associated with the specified Spot fleet request.** ``` Get-EC2SpotFleetInstance -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE ``` **Output:** ``` InstanceId InstanceType SpotInstanceRequestId ---------- ------------ --------------------- i-f089262a c3.large sir-12345678 i-7e8b24a4 c3.large sir-87654321 ``` + For API details, see [DescribeSpotFleetInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeSpotFleetRequestHistory` with a CLI The following code examples show how to use `DescribeSpotFleetRequestHistory`. ------ #### [ CLI ] **AWS CLI** **To describe Spot fleet history** This example command returns the history for the specified Spot fleet starting at the specified time. Command: ``` aws ec2 describe-spot-fleet-request-history --spot-fleet-request-id sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE --start-time 2015-05-26T00:00:00Z ``` The following example output shows the successful launches of two Spot Instances for the Spot fleet. Output: ``` { "HistoryRecords": [ { "Timestamp": "2015-05-26T23:17:20.697Z", "EventInformation": { "EventSubType": "submitted" }, "EventType": "fleetRequestChange" }, { "Timestamp": "2015-05-26T23:17:20.873Z", "EventInformation": { "EventSubType": "active" }, "EventType": "fleetRequestChange" }, { "Timestamp": "2015-05-26T23:21:21.712Z", "EventInformation": { "InstanceId": "i-1234567890abcdef0", "EventSubType": "launched" }, "EventType": "instanceChange" }, { "Timestamp": "2015-05-26T23:21:21.816Z", "EventInformation": { "InstanceId": "i-1234567890abcdef1", "EventSubType": "launched" }, "EventType": "instanceChange" } ], "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE", "NextToken": "CpHNsscimcV5oH7bSbub03CI2Qms5+ypNpNm+53MNlR0YcXAkp0xFlfKf91yVxSExmbtma3awYxMFzNA663ZskT0AHtJ6TCb2Z8bQC2EnZgyELbymtWPfpZ1ZbauVg+P+TfGlWxWWB/Vr5dk5d4LfdgA/DRAHUrYgxzrEXAMPLE=", "StartTime": "2015-05-26T00:00:00Z" } ``` + For API details, see [DescribeSpotFleetRequestHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-fleet-request-history.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the history of the specified Spot fleet request.** ``` Get-EC2SpotFleetRequestHistory -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -StartTime 2015-12-26T00:00:00Z ``` **Output:** ``` HistoryRecords : {Amazon.EC2.Model.HistoryRecord, Amazon.EC2.Model.HistoryRecord...} LastEvaluatedTime : 12/26/2015 8:29:11 AM NextToken : SpotFleetRequestId : sfr-088bc5f1-7e7b-451a-bd13-757f10672b93 StartTime : 12/25/2015 8:00:00 AM ``` ``` (Get-EC2SpotFleetRequestHistory -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -StartTime 2015-12-26T00:00:00Z).HistoryRecords ``` **Output:** ``` EventInformation EventType Timestamp ---------------- --------- --------- Amazon.EC2.Model.EventInformation fleetRequestChange 12/26/2015 8:23:33 AM Amazon.EC2.Model.EventInformation fleetRequestChange 12/26/2015 8:23:33 AM Amazon.EC2.Model.EventInformation fleetRequestChange 12/26/2015 8:23:33 AM Amazon.EC2.Model.EventInformation launched 12/26/2015 8:25:34 AM Amazon.EC2.Model.EventInformation launched 12/26/2015 8:25:05 AM ``` + For API details, see [DescribeSpotFleetRequestHistory](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the history of the specified Spot fleet request.** ``` Get-EC2SpotFleetRequestHistory -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -StartTime 2015-12-26T00:00:00Z ``` **Output:** ``` HistoryRecords : {Amazon.EC2.Model.HistoryRecord, Amazon.EC2.Model.HistoryRecord...} LastEvaluatedTime : 12/26/2015 8:29:11 AM NextToken : SpotFleetRequestId : sfr-088bc5f1-7e7b-451a-bd13-757f10672b93 StartTime : 12/25/2015 8:00:00 AM ``` ``` (Get-EC2SpotFleetRequestHistory -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -StartTime 2015-12-26T00:00:00Z).HistoryRecords ``` **Output:** ``` EventInformation EventType Timestamp ---------------- --------- --------- Amazon.EC2.Model.EventInformation fleetRequestChange 12/26/2015 8:23:33 AM Amazon.EC2.Model.EventInformation fleetRequestChange 12/26/2015 8:23:33 AM Amazon.EC2.Model.EventInformation fleetRequestChange 12/26/2015 8:23:33 AM Amazon.EC2.Model.EventInformation launched 12/26/2015 8:25:34 AM Amazon.EC2.Model.EventInformation launched 12/26/2015 8:25:05 AM ``` + For API details, see [DescribeSpotFleetRequestHistory](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeSpotFleetRequests` with a CLI The following code examples show how to use `DescribeSpotFleetRequests`. ------ #### [ CLI ] **AWS CLI** **To describe your Spot fleet requests** This example describes all of your Spot fleet requests. Command: ``` aws ec2 describe-spot-fleet-requests ``` Output: ``` { "SpotFleetRequestConfigs": [ { "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE", "SpotFleetRequestConfig": { "TargetCapacity": 20, "LaunchSpecifications": [ { "EbsOptimized": false, "NetworkInterfaces": [ { "SubnetId": "subnet-a61dafcf", "DeviceIndex": 0, "DeleteOnTermination": false, "AssociatePublicIpAddress": true, "SecondaryPrivateIpAddressCount": 0 } ], "InstanceType": "cc2.8xlarge", "ImageId": "ami-1a2b3c4d" }, { "EbsOptimized": false, "NetworkInterfaces": [ { "SubnetId": "subnet-a61dafcf", "DeviceIndex": 0, "DeleteOnTermination": false, "AssociatePublicIpAddress": true, "SecondaryPrivateIpAddressCount": 0 } ], "InstanceType": "r3.8xlarge", "ImageId": "ami-1a2b3c4d" } ], "SpotPrice": "0.05", "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role" }, "SpotFleetRequestState": "active" }, { "SpotFleetRequestId": "sfr-306341ed-9739-402e-881b-ce47bEXAMPLE", "SpotFleetRequestConfig": { "TargetCapacity": 20, "LaunchSpecifications": [ { "EbsOptimized": false, "NetworkInterfaces": [ { "SubnetId": "subnet-6e7f829e", "DeviceIndex": 0, "DeleteOnTermination": false, "AssociatePublicIpAddress": true, "SecondaryPrivateIpAddressCount": 0 } ], "InstanceType": "m3.medium", "ImageId": "ami-1a2b3c4d" } ], "SpotPrice": "0.05", "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role" }, "SpotFleetRequestState": "active" } ] } ``` **To describe a Spot fleet request** This example describes the specified Spot fleet request. Command: ``` aws ec2 describe-spot-fleet-requests --spot-fleet-request-ids sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE ``` Output: ``` { "SpotFleetRequestConfigs": [ { "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE", "SpotFleetRequestConfig": { "TargetCapacity": 20, "LaunchSpecifications": [ { "EbsOptimized": false, "NetworkInterfaces": [ { "SubnetId": "subnet-a61dafcf", "DeviceIndex": 0, "DeleteOnTermination": false, "AssociatePublicIpAddress": true, "SecondaryPrivateIpAddressCount": 0 } ], "InstanceType": "cc2.8xlarge", "ImageId": "ami-1a2b3c4d" }, { "EbsOptimized": false, "NetworkInterfaces": [ { "SubnetId": "subnet-a61dafcf", "DeviceIndex": 0, "DeleteOnTermination": false, "AssociatePublicIpAddress": true, "SecondaryPrivateIpAddressCount": 0 } ], "InstanceType": "r3.8xlarge", "ImageId": "ami-1a2b3c4d" } ], "SpotPrice": "0.05", "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role" }, "SpotFleetRequestState": "active" } ] } ``` + For API details, see [DescribeSpotFleetRequests](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-fleet-requests.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified Spot fleet request.** ``` Get-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE | format-list ``` **Output:** ``` ConfigData : Amazon.EC2.Model.SpotFleetRequestConfigData CreateTime : 12/26/2015 8:23:33 AM SpotFleetRequestId : sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE SpotFleetRequestState : active ``` **Example 2: This example describes all your Spot fleet requests.** ``` Get-EC2SpotFleetRequest ``` + For API details, see [DescribeSpotFleetRequests](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified Spot fleet request.** ``` Get-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE | format-list ``` **Output:** ``` ConfigData : Amazon.EC2.Model.SpotFleetRequestConfigData CreateTime : 12/26/2015 8:23:33 AM SpotFleetRequestId : sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE SpotFleetRequestState : active ``` **Example 2: This example describes all your Spot fleet requests.** ``` Get-EC2SpotFleetRequest ``` + For API details, see [DescribeSpotFleetRequests](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeSpotInstanceRequests` with a CLI The following code examples show how to use `DescribeSpotInstanceRequests`. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe a Spot Instance request** The following `describe-spot-instance-requests` example describes the specified Spot Instance request. ``` aws ec2 describe-spot-instance-requests \ --spot-instance-request-ids sir-08b93456 ``` Output: ``` { "SpotInstanceRequests": [ { "CreateTime": "2018-04-30T18:14:55.000Z", "InstanceId": "i-1234567890abcdef1", "LaunchSpecification": { "InstanceType": "t2.micro", "ImageId": "ami-003634241a8fcdec0", "KeyName": "my-key-pair", "SecurityGroups": [ { "GroupName": "default", "GroupId": "sg-e38f24a7" } ], "BlockDeviceMappings": [ { "DeviceName": "/dev/sda1", "Ebs": { "DeleteOnTermination": true, "SnapshotId": "snap-0e54a519c999adbbd", "VolumeSize": 8, "VolumeType": "standard", "Encrypted": false } } ], "NetworkInterfaces": [ { "DeleteOnTermination": true, "DeviceIndex": 0, "SubnetId": "subnet-049df61146c4d7901" } ], "Placement": { "AvailabilityZone": "us-east-2b", "Tenancy": "default" }, "Monitoring": { "Enabled": false } }, "LaunchedAvailabilityZone": "us-east-2b", "ProductDescription": "Linux/UNIX", "SpotInstanceRequestId": "sir-08b93456", "SpotPrice": "0.010000" "State": "active", "Status": { "Code": "fulfilled", "Message": "Your Spot request is fulfilled.", "UpdateTime": "2018-04-30T18:16:21.000Z" }, "Tags": [], "Type": "one-time", "InstanceInterruptionBehavior": "terminate" } ] } ``` **Example 2: To describe Spot Instance requests based on filters** The following `describe-spot-instance-requests` example uses filters to scope the results to Spot Instance requests with the specified instance type in the specified Availability Zone. The example uses the `--query` parameter to display only the instance IDs. ``` aws ec2 describe-spot-instance-requests \ --filters Name=launch.instance-type,Values=m3.medium Name=launched-availability-zone,Values=us-east-2a \ --query "SpotInstanceRequests[*].[InstanceId]" \ --output text ``` Output: ``` i-057750d42936e468a i-001efd250faaa6ffa i-027552a73f021f3bd ... ``` For additional examples using filters, see [Listing and filtering your resources](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Filtering.html#Filtering_Resources_CLI) in the *Amazon Elastic Compute Cloud User Guide*. **Example 3: To describe Spot Instance requests based on tags** The following `describe-spot-instance-requests` example uses tag filters to scope the results to Spot Instance requests that have the tag `cost-center=cc123`. ``` aws ec2 describe-spot-instance-requests \ --filters Name=tag:cost-center,Values=cc123 ``` For an example of the output for `describe-spot-instance-requests`, see Example 1. For additional examples using tag filters, see [Working with tags](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#Using_Tags_CLI) in the *Amazon EC2 User Guide*. + For API details, see [DescribeSpotInstanceRequests](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-instance-requests.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified Spot instance request.** ``` Get-EC2SpotInstanceRequest -SpotInstanceRequestId sir-12345678 ``` **Output:** ``` ActualBlockHourlyPrice : AvailabilityZoneGroup : BlockDurationMinutes : 0 CreateTime : 4/8/2015 2:51:33 PM Fault : InstanceId : i-12345678 LaunchedAvailabilityZone : us-west-2b LaunchGroup : LaunchSpecification : Amazon.EC2.Model.LaunchSpecification ProductDescription : Linux/UNIX SpotInstanceRequestId : sir-12345678 SpotPrice : 0.020000 State : active Status : Amazon.EC2.Model.SpotInstanceStatus Tags : {Name} Type : one-time ``` **Example 2: This example describes all your Spot instance requests.** ``` Get-EC2SpotInstanceRequest ``` + For API details, see [DescribeSpotInstanceRequests](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified Spot instance request.** ``` Get-EC2SpotInstanceRequest -SpotInstanceRequestId sir-12345678 ``` **Output:** ``` ActualBlockHourlyPrice : AvailabilityZoneGroup : BlockDurationMinutes : 0 CreateTime : 4/8/2015 2:51:33 PM Fault : InstanceId : i-12345678 LaunchedAvailabilityZone : us-west-2b LaunchGroup : LaunchSpecification : Amazon.EC2.Model.LaunchSpecification ProductDescription : Linux/UNIX SpotInstanceRequestId : sir-12345678 SpotPrice : 0.020000 State : active Status : Amazon.EC2.Model.SpotInstanceStatus Tags : {Name} Type : one-time ``` **Example 2: This example describes all your Spot instance requests.** ``` Get-EC2SpotInstanceRequest ``` + For API details, see [DescribeSpotInstanceRequests](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeSpotPriceHistory` with a CLI The following code examples show how to use `DescribeSpotPriceHistory`. ------ #### [ CLI ] **AWS CLI** **To describe Spot price history** This example command returns the Spot Price history for m1.xlarge instances for a particular day in January. Command: ``` aws ec2 describe-spot-price-history --instance-types m1.xlarge --start-time 2014-01-06T07:08:09 --end-time 2014-01-06T08:09:10 ``` Output: ``` { "SpotPriceHistory": [ { "Timestamp": "2014-01-06T07:10:55.000Z", "ProductDescription": "SUSE Linux", "InstanceType": "m1.xlarge", "SpotPrice": "0.087000", "AvailabilityZone": "us-west-1b" }, { "Timestamp": "2014-01-06T07:10:55.000Z", "ProductDescription": "SUSE Linux", "InstanceType": "m1.xlarge", "SpotPrice": "0.087000", "AvailabilityZone": "us-west-1c" }, { "Timestamp": "2014-01-06T05:42:36.000Z", "ProductDescription": "SUSE Linux (Amazon VPC)", "InstanceType": "m1.xlarge", "SpotPrice": "0.087000", "AvailabilityZone": "us-west-1a" }, ... } ``` **To describe Spot price history for Linux/UNIX Amazon VPC** This example command returns the Spot Price history for m1.xlarge, Linux/UNIX Amazon VPC instances for a particular day in January. Command: ``` aws ec2 describe-spot-price-history --instance-types m1.xlarge --product-description "Linux/UNIX (Amazon VPC)" --start-time 2014-01-06T07:08:09 --end-time 2014-01-06T08:09:10 ``` Output: ``` { "SpotPriceHistory": [ { "Timestamp": "2014-01-06T04:32:53.000Z", "ProductDescription": "Linux/UNIX (Amazon VPC)", "InstanceType": "m1.xlarge", "SpotPrice": "0.080000", "AvailabilityZone": "us-west-1a" }, { "Timestamp": "2014-01-05T11:28:26.000Z", "ProductDescription": "Linux/UNIX (Amazon VPC)", "InstanceType": "m1.xlarge", "SpotPrice": "0.080000", "AvailabilityZone": "us-west-1c" } ] } ``` + For API details, see [DescribeSpotPriceHistory](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-spot-price-history.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example gets the last 10 entries in the Spot price history for the specified instance type and Availability Zone. Note that the value specified for the -AvailabilityZone parameter must be valid for the region value supplied to either the cmdlet's -Region parameter (not shown in the example) or set as default in the shell. This example command assumes a default region of 'us-west-2' has been set in the environment.** ``` Get-EC2SpotPriceHistory -InstanceType c3.large -AvailabilityZone us-west-2a -MaxResult 10 ``` **Output:** ``` AvailabilityZone : us-west-2a InstanceType : c3.large Price : 0.017300 ProductDescription : Linux/UNIX (Amazon VPC) Timestamp : 12/25/2015 7:39:49 AM AvailabilityZone : us-west-2a InstanceType : c3.large Price : 0.017200 ProductDescription : Linux/UNIX (Amazon VPC) Timestamp : 12/25/2015 7:38:29 AM AvailabilityZone : us-west-2a InstanceType : c3.large Price : 0.017300 ProductDescription : Linux/UNIX (Amazon VPC) Timestamp : 12/25/2015 6:57:13 AM ... ``` + For API details, see [DescribeSpotPriceHistory](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example gets the last 10 entries in the Spot price history for the specified instance type and Availability Zone. Note that the value specified for the -AvailabilityZone parameter must be valid for the region value supplied to either the cmdlet's -Region parameter (not shown in the example) or set as default in the shell. This example command assumes a default region of 'us-west-2' has been set in the environment.** ``` Get-EC2SpotPriceHistory -InstanceType c3.large -AvailabilityZone us-west-2a -MaxResult 10 ``` **Output:** ``` AvailabilityZone : us-west-2a InstanceType : c3.large Price : 0.017300 ProductDescription : Linux/UNIX (Amazon VPC) Timestamp : 12/25/2015 7:39:49 AM AvailabilityZone : us-west-2a InstanceType : c3.large Price : 0.017200 ProductDescription : Linux/UNIX (Amazon VPC) Timestamp : 12/25/2015 7:38:29 AM AvailabilityZone : us-west-2a InstanceType : c3.large Price : 0.017300 ProductDescription : Linux/UNIX (Amazon VPC) Timestamp : 12/25/2015 6:57:13 AM ... ``` + For API details, see [DescribeSpotPriceHistory](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeSubnets` with an AWS SDK or CLI The following code examples show how to use `DescribeSubnets`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Build and manage a resilient service](example_cross_ResilientService_section.md) + [Configure Amazon ECS Service Connect](example_ecs_ServiceConnect_085_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Create an Amazon ECS Linux task for the Fargate launch type](example_ecs_GettingStarted_086_section.md) + [Creating an Amazon ECS service for the EC2 launch type](example_ecs_GettingStarted_018_section.md) + [Creating an Amazon RDS DB instance](example_rds_GettingStarted_036_section.md) + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Getting started with Amazon DocumentDB](example_docdb_GettingStarted_025_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) + [Getting started with Amazon VPC Transit Gateway](example_vpc_TransitGatewayGettingStarted_section.md) + [Getting started with Elastic Load Balancing](example_elastic_load_balancing_v2_GettingStarted_058_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). ``` /// /// Get all the subnets for a Vpc in a set of availability zones. /// /// The Id of the Vpc. /// The list of availability zones. /// The collection of subnet objects. public async Task> GetAllVpcSubnetsForZones(string vpcId, List availabilityZones) { try { var subnets = new List(); var subnetPaginator = _amazonEc2.Paginators.DescribeSubnets( new DescribeSubnetsRequest() { Filters = new List() { new("vpc-id", new List() { vpcId }), new("availability-zone", availabilityZones), new("default-for-az", new List() { "true" }) } }); // Get the entire list using the paginator. await foreach (var subnet in subnetPaginator.Subnets) { subnets.Add(subnet); } return subnets; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidVpcID.NotFound") { _logger.LogError(ec2Exception, $"The specified VPC ID {vpcId} does not exist."); } throw; } catch (Exception ex) { _logger.LogError(ex, $"An error occurred while describing the subnets.: {ex.Message}"); throw; } } ``` + For API details, see [DescribeSubnets](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeSubnets) in *AWS SDK for .NET API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe all your subnets** The following `describe-subnets` example displays the details of your subnets. ``` aws ec2 describe-subnets ``` Output: ``` { "Subnets": [ { "AvailabilityZone": "us-east-1d", "AvailabilityZoneId": "use1-az2", "AvailableIpAddressCount": 4089, "CidrBlock": "172.31.80.0/20", "DefaultForAz": true, "MapPublicIpOnLaunch": false, "MapCustomerOwnedIpOnLaunch": true, "State": "available", "SubnetId": "subnet-0bb1c79de3EXAMPLE", "VpcId": "vpc-0ee975135dEXAMPLE", "OwnerId": "111122223333", "AssignIpv6AddressOnCreation": false, "Ipv6CidrBlockAssociationSet": [], "CustomerOwnedIpv4Pool:": 'pool-2EXAMPLE', "SubnetArn": "arn:aws:ec2:us-east-2:111122223333:subnet/subnet-0bb1c79de3EXAMPLE", "EnableDns64": false, "Ipv6Native": false, "PrivateDnsNameOptionsOnLaunch": { "HostnameType": "ip-name", "EnableResourceNameDnsARecord": false, "EnableResourceNameDnsAAAARecord": false } }, { "AvailabilityZone": "us-east-1d", "AvailabilityZoneId": "use1-az2", "AvailableIpAddressCount": 4089, "CidrBlock": "172.31.80.0/20", "DefaultForAz": true, "MapPublicIpOnLaunch": true, "MapCustomerOwnedIpOnLaunch": false, "State": "available", "SubnetId": "subnet-8EXAMPLE", "VpcId": "vpc-3EXAMPLE", "OwnerId": "1111222233333", "AssignIpv6AddressOnCreation": false, "Ipv6CidrBlockAssociationSet": [], "Tags": [ { "Key": "Name", "Value": "MySubnet" } ], "SubnetArn": "arn:aws:ec2:us-east-1:111122223333:subnet/subnet-8EXAMPLE", "EnableDns64": false, "Ipv6Native": false, "PrivateDnsNameOptionsOnLaunch": { "HostnameType": "ip-name", "EnableResourceNameDnsARecord": false, "EnableResourceNameDnsAAAARecord": false } } ] } ``` For more information, see [Working with VPCs and Subnets](https://docs.aws.amazon.com/vpc/latest/userguide/working-with-vpcs.html) in the *AWS VPC User Guide*. **Example 2: To describe the subnets of a specific VPC** The following `describe-subnets` example uses a filter to retrieve details for the subnets of the specified VPC. ``` aws ec2 describe-subnets \ --filters "Name=vpc-id,Values=vpc-3EXAMPLE" ``` Output: ``` { "Subnets": [ { "AvailabilityZone": "us-east-1d", "AvailabilityZoneId": "use1-az2", "AvailableIpAddressCount": 4089, "CidrBlock": "172.31.80.0/20", "DefaultForAz": true, "MapPublicIpOnLaunch": true, "MapCustomerOwnedIpOnLaunch": false, "State": "available", "SubnetId": "subnet-8EXAMPLE", "VpcId": "vpc-3EXAMPLE", "OwnerId": "1111222233333", "AssignIpv6AddressOnCreation": false, "Ipv6CidrBlockAssociationSet": [], "Tags": [ { "Key": "Name", "Value": "MySubnet" } ], "SubnetArn": "arn:aws:ec2:us-east-1:111122223333:subnet/subnet-8EXAMPLE", "EnableDns64": false, "Ipv6Native": false, "PrivateDnsNameOptionsOnLaunch": { "HostnameType": "ip-name", "EnableResourceNameDnsARecord": false, "EnableResourceNameDnsAAAARecord": false } } ] } ``` For more information, see [Working with VPCs and Subnets](https://docs.aws.amazon.com/vpc/latest/userguide/working-with-vpcs.html) in the *AWS VPC User Guide*. **Example 3: To describe the subnets with a specific tag** The following `describe-subnets` example uses a filter to retrieve the details of those subnets with the tag `CostCenter=123` and the `--query` parameter to display the subnet IDs of the subnets with this tag. ``` aws ec2 describe-subnets \ --filters "Name=tag:CostCenter,Values=123" \ --query "Subnets[*].SubnetId" \ --output text ``` Output: ``` subnet-0987a87c8b37348ef subnet-02a95061c45f372ee subnet-03f720e7de2788d73 ``` For more information, see [Working with VPCs and Subnets](https://docs.aws.amazon.com/vpc/latest/userguide/working-with-vpcs.html) in the *Amazon VPC User Guide*. + For API details, see [DescribeSubnets](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-subnets.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). ``` const client = new EC2Client({}); const { Subnets } = await client.send( new DescribeSubnetsCommand({ Filters: [ { Name: "vpc-id", Values: [state.defaultVpc] }, { Name: "availability-zone", Values: state.availabilityZoneNames }, { Name: "default-for-az", Values: ["true"] }, ], }), ); ``` + For API details, see [DescribeSubnets](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeSubnetsCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified subnet.** ``` Get-EC2Subnet -SubnetId subnet-1a2b3c4d ``` **Output:** ``` AvailabilityZone : us-west-2c AvailableIpAddressCount : 251 CidrBlock : 10.0.0.0/24 DefaultForAz : False MapPublicIpOnLaunch : False State : available SubnetId : subnet-1a2b3c4d Tags : {} VpcId : vpc-12345678 ``` **Example 2: This example describes all your subnets.** ``` Get-EC2Subnet ``` + For API details, see [DescribeSubnets](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified subnet.** ``` Get-EC2Subnet -SubnetId subnet-1a2b3c4d ``` **Output:** ``` AvailabilityZone : us-west-2c AvailableIpAddressCount : 251 CidrBlock : 10.0.0.0/24 DefaultForAz : False MapPublicIpOnLaunch : False State : available SubnetId : subnet-1a2b3c4d Tags : {} VpcId : vpc-12345678 ``` **Example 2: This example describes all your subnets.** ``` Get-EC2Subnet ``` + For API details, see [DescribeSubnets](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class AutoScalingWrapper: """ Encapsulates Amazon EC2 Auto Scaling and EC2 management actions. """ def __init__( self, resource_prefix: str, inst_type: str, ami_param: str, autoscaling_client: boto3.client, ec2_client: boto3.client, ssm_client: boto3.client, iam_client: boto3.client, ): """ Initializes the AutoScaler class with the necessary parameters. :param resource_prefix: The prefix for naming AWS resources that are created by this class. :param inst_type: The type of EC2 instance to create, such as t3.micro. :param ami_param: The Systems Manager parameter used to look up the AMI that is created. :param autoscaling_client: A Boto3 EC2 Auto Scaling client. :param ec2_client: A Boto3 EC2 client. :param ssm_client: A Boto3 Systems Manager client. :param iam_client: A Boto3 IAM client. """ self.inst_type = inst_type self.ami_param = ami_param self.autoscaling_client = autoscaling_client self.ec2_client = ec2_client self.ssm_client = ssm_client self.iam_client = iam_client sts_client = boto3.client("sts") self.account_id = sts_client.get_caller_identity()["Account"] self.key_pair_name = f"{resource_prefix}-key-pair" self.launch_template_name = f"{resource_prefix}-template-" self.group_name = f"{resource_prefix}-group" # Happy path self.instance_policy_name = f"{resource_prefix}-pol" self.instance_role_name = f"{resource_prefix}-role" self.instance_profile_name = f"{resource_prefix}-prof" # Failure mode self.bad_creds_policy_name = f"{resource_prefix}-bc-pol" self.bad_creds_role_name = f"{resource_prefix}-bc-role" self.bad_creds_profile_name = f"{resource_prefix}-bc-prof" def get_subnets(self, vpc_id: str, zones: List[str] = None) -> List[Dict[str, Any]]: """ Gets the default subnets in a VPC for a specified list of Availability Zones. :param vpc_id: The ID of the VPC to look up. :param zones: The list of Availability Zones to look up. :return: The list of subnets found. """ # Ensure that 'zones' is a list, even if None is passed if zones is None: zones = [] try: paginator = self.ec2_client.get_paginator("describe_subnets") page_iterator = paginator.paginate( Filters=[ {"Name": "vpc-id", "Values": [vpc_id]}, {"Name": "availability-zone", "Values": zones}, {"Name": "default-for-az", "Values": ["true"]}, ] ) subnets = [] for page in page_iterator: subnets.extend(page["Subnets"]) log.info("Found %s subnets for the specified zones.", len(subnets)) return subnets except ClientError as err: log.error( f"Failed to retrieve subnets for VPC '{vpc_id}' in zones {zones}." ) error_code = err.response["Error"]["Code"] if error_code == "InvalidVpcID.NotFound": log.error( "The specified VPC ID does not exist. " "Please check the VPC ID and try again." ) # Add more error-specific handling as needed log.error(f"Full error:\n\t{err}") ``` + For API details, see [DescribeSubnets](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeSubnets) in *AWS SDK for Python (Boto3) API Reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeTags` with a CLI The following code examples show how to use `DescribeTags`. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe all tags for a single resource** The following `describe-tags` example describes the tags for the specified instance. ``` aws ec2 describe-tags \ --filters "Name=resource-id,Values=i-1234567890abcdef8" ``` Output: ``` { "Tags": [ { "ResourceType": "instance", "ResourceId": "i-1234567890abcdef8", "Value": "Test", "Key": "Stack" }, { "ResourceType": "instance", "ResourceId": "i-1234567890abcdef8", "Value": "Beta Server", "Key": "Name" } ] } ``` **Example 2: To describe all tags for a resource type** The following `describe-tags` example describes the tags for your volumes. ``` aws ec2 describe-tags \ --filters "Name=resource-type,Values=volume" ``` Output: ``` { "Tags": [ { "ResourceType": "volume", "ResourceId": "vol-1234567890abcdef0", "Value": "Project1", "Key": "Purpose" }, { "ResourceType": "volume", "ResourceId": "vol-049df61146c4d7901", "Value": "Logs", "Key": "Purpose" } ] } ``` **Example 3: To describe all your tags** The following `describe-tags` example describes the tags for all your resources. ``` aws ec2 describe-tags ``` **Example 4: To describe the tags for your resources based on a tag key** The following `describe-tags` example describes the tags for your resources that have a tag with the key `Stack`. ``` aws ec2 describe-tags \ --filters Name=key,Values=Stack ``` Output: ``` { "Tags": [ { "ResourceType": "volume", "ResourceId": "vol-027552a73f021f3b", "Value": "Production", "Key": "Stack" }, { "ResourceType": "instance", "ResourceId": "i-1234567890abcdef8", "Value": "Test", "Key": "Stack" } ] } ``` **Example 5: To describe the tags for your resources based on a tag key and tag value** The following `describe-tags` example describes the tags for your resources that have the tag `Stack=Test`. ``` aws ec2 describe-tags \ --filters Name=key,Values=Stack Name=value,Values=Test ``` Output: ``` { "Tags": [ { "ResourceType": "image", "ResourceId": "ami-3ac336533f021f3bd", "Value": "Test", "Key": "Stack" }, { "ResourceType": "instance", "ResourceId": "i-1234567890abcdef8", "Value": "Test", "Key": "Stack" } ] } ``` The following `describe-tags` example uses alternate syntax to describe resources with the tag `Stack=Test`. ``` aws ec2 describe-tags \ --filters "Name=tag:Stack,Values=Test" ``` The following `describe-tags` example describes the tags for all your instances that have a tag with the key `Purpose` and no value. ``` aws ec2 describe-tags \ --filters "Name=resource-type,Values=instance" "Name=key,Values=Purpose" "Name=value,Values=" ``` Output: ``` { "Tags": [ { "ResourceType": "instance", "ResourceId": "i-1234567890abcdef5", "Value": null, "Key": "Purpose" } ] } ``` + For API details, see [DescribeTags](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-tags.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example fetches the tags for resource-type 'image'** ``` Get-EC2Tag -Filter @{Name="resource-type";Values="image"} ``` **Output:** ``` Key ResourceId ResourceType Value --- ---------- ------------ ----- Name ami-0a123b4ccb567a8ea image Win7-Imported auto-delete ami-0a123b4ccb567a8ea image never ``` **Example 2: This example fetches all the tags for all the resources and groups them by resource type** ``` Get-EC2Tag | Group-Object resourcetype ``` **Output:** ``` Count Name Group ----- ---- ----- 9 subnet {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...} 53 instance {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...} 3 route-table {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription} 5 security-group {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...} 30 volume {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...} 1 internet-gateway {Amazon.EC2.Model.TagDescription} 3 network-interface {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription} 4 elastic-ip {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription} 1 dhcp-options {Amazon.EC2.Model.TagDescription} 2 image {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription} 3 vpc {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription} ``` **Example 3: This example displays all the resources with tag 'auto-delete' with value 'no' for the given region** ``` Get-EC2Tag -Region eu-west-1 -Filter @{Name="tag:auto-delete";Values="no"} ``` **Output:** ``` Key ResourceId ResourceType Value --- ---------- ------------ ----- auto-delete i-0f1bce234d5dd678b instance no auto-delete vol-01d234aa5678901a2 volume no auto-delete vol-01234bfb5def6f7b8 volume no auto-delete vol-01ccb23f4c5e67890 volume no ``` **Example 4: This example obtains all the resources with tag 'auto-delete' with 'no' value and further filters in the next pipe to parse only 'instance' resource types and eventually creates 'ThisInstance' tag for each instance resources with value being the instance id itself ** ``` Get-EC2Tag -Region eu-west-1 -Filter @{Name="tag:auto-delete";Values="no"} | Where-Object ResourceType -eq "instance" | ForEach-Object {New-EC2Tag -ResourceId $_.ResourceId -Tag @{Key="ThisInstance";Value=$_.ResourceId}} ``` **Example 5: This example fetches tags for all the instance resources as well as 'Name' keys and displays them in a table format** ``` Get-EC2Tag -Filter @{Name="resource-type";Values="instance"},@{Name="key";Values="Name"} | Select-Object ResourceId, @{Name="Name-Tag";Expression={$PSItem.Value}} | Format-Table -AutoSize ``` **Output:** ``` ResourceId Name-Tag ---------- -------- i-012e3cb4df567e1aa jump1 i-01c23a45d6fc7a89f repro-3 ``` + For API details, see [DescribeTags](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example fetches the tags for resource-type 'image'** ``` Get-EC2Tag -Filter @{Name="resource-type";Values="image"} ``` **Output:** ``` Key ResourceId ResourceType Value --- ---------- ------------ ----- Name ami-0a123b4ccb567a8ea image Win7-Imported auto-delete ami-0a123b4ccb567a8ea image never ``` **Example 2: This example fetches all the tags for all the resources and groups them by resource type** ``` Get-EC2Tag | Group-Object resourcetype ``` **Output:** ``` Count Name Group ----- ---- ----- 9 subnet {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...} 53 instance {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...} 3 route-table {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription} 5 security-group {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...} 30 volume {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription...} 1 internet-gateway {Amazon.EC2.Model.TagDescription} 3 network-interface {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription} 4 elastic-ip {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription} 1 dhcp-options {Amazon.EC2.Model.TagDescription} 2 image {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription} 3 vpc {Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription, Amazon.EC2.Model.TagDescription} ``` **Example 3: This example displays all the resources with tag 'auto-delete' with value 'no' for the given region** ``` Get-EC2Tag -Region eu-west-1 -Filter @{Name="tag:auto-delete";Values="no"} ``` **Output:** ``` Key ResourceId ResourceType Value --- ---------- ------------ ----- auto-delete i-0f1bce234d5dd678b instance no auto-delete vol-01d234aa5678901a2 volume no auto-delete vol-01234bfb5def6f7b8 volume no auto-delete vol-01ccb23f4c5e67890 volume no ``` **Example 4: This example obtains all the resources with tag 'auto-delete' with 'no' value and further filters in the next pipe to parse only 'instance' resource types and eventually creates 'ThisInstance' tag for each instance resources with value being the instance id itself ** ``` Get-EC2Tag -Region eu-west-1 -Filter @{Name="tag:auto-delete";Values="no"} | Where-Object ResourceType -eq "instance" | ForEach-Object {New-EC2Tag -ResourceId $_.ResourceId -Tag @{Key="ThisInstance";Value=$_.ResourceId}} ``` **Example 5: This example fetches tags for all the instance resources as well as 'Name' keys and displays them in a table format** ``` Get-EC2Tag -Filter @{Name="resource-type";Values="instance"},@{Name="key";Values="Name"} | Select-Object ResourceId, @{Name="Name-Tag";Expression={$PSItem.Value}} | Format-Table -AutoSize ``` **Output:** ``` ResourceId Name-Tag ---------- -------- i-012e3cb4df567e1aa jump1 i-01c23a45d6fc7a89f repro-3 ``` **Example 6: This example validates permissions for getting EC2 Tags using the DryRun parameter without actually fetching them. Note: This throws an exception if succeeded which is the expected behavior.** ``` Get-EC2Tag -DryRun $true ``` **Output:** ``` Get-EC2Tag: Request would have succeeded, but DryRun flag is set. ``` + For API details, see [DescribeTags](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeVolumeAttribute` with a CLI The following code examples show how to use `DescribeVolumeAttribute`. ------ #### [ CLI ] **AWS CLI** **To describe a volume attribute** This example command describes the `autoEnableIo` attribute of the volume with the ID `vol-049df61146c4d7901`. Command: ``` aws ec2 describe-volume-attribute --volume-id vol-049df61146c4d7901 --attribute autoEnableIO ``` Output: ``` { "AutoEnableIO": { "Value": false }, "VolumeId": "vol-049df61146c4d7901" } ``` + For API details, see [DescribeVolumeAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-volume-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified attribute of the specified volume.** ``` Get-EC2VolumeAttribute -VolumeId vol-12345678 -Attribute AutoEnableIO ``` **Output:** ``` AutoEnableIO ProductCodes VolumeId ------------ ------------ -------- False {} vol-12345678 ``` + For API details, see [DescribeVolumeAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified attribute of the specified volume.** ``` Get-EC2VolumeAttribute -VolumeId vol-12345678 -Attribute AutoEnableIO ``` **Output:** ``` AutoEnableIO ProductCodes VolumeId ------------ ------------ -------- False {} vol-12345678 ``` + For API details, see [DescribeVolumeAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeVolumeStatus` with a CLI The following code examples show how to use `DescribeVolumeStatus`. ------ #### [ CLI ] **AWS CLI** **To describe the status of a single volume** This example command describes the status for the volume `vol-1234567890abcdef0`. Command: ``` aws ec2 describe-volume-status --volume-ids vol-1234567890abcdef0 ``` Output: ``` { "VolumeStatuses": [ { "VolumeStatus": { "Status": "ok", "Details": [ { "Status": "passed", "Name": "io-enabled" }, { "Status": "not-applicable", "Name": "io-performance" } ] }, "AvailabilityZone": "us-east-1a", "VolumeId": "vol-1234567890abcdef0", "Actions": [], "Events": [] } ] } ``` **To describe the status of impaired volumes** This example command describes the status for all volumes that are impaired. In this example output, there are no impaired volumes. Command: ``` aws ec2 describe-volume-status --filters Name=volume-status.status,Values=impaired ``` Output: ``` { "VolumeStatuses": [] } ``` If you have a volume with a failed status check (status is impaired), see Working with an Impaired Volume in the *Amazon EC2 User Guide*. + For API details, see [DescribeVolumeStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-volume-status.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the status of the specified volume.** ``` Get-EC2VolumeStatus -VolumeId vol-12345678 ``` **Output:** ``` Actions : {} AvailabilityZone : us-west-2a Events : {} VolumeId : vol-12345678 VolumeStatus : Amazon.EC2.Model.VolumeStatusInfo ``` ``` (Get-EC2VolumeStatus -VolumeId vol-12345678).VolumeStatus ``` **Output:** ``` Details Status ------- ------ {io-enabled, io-performance} ok ``` ``` (Get-EC2VolumeStatus -VolumeId vol-12345678).VolumeStatus.Details ``` **Output:** ``` Name Status ---- ------ io-enabled passed io-performance not-applicable ``` + For API details, see [DescribeVolumeStatus](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the status of the specified volume.** ``` Get-EC2VolumeStatus -VolumeId vol-12345678 ``` **Output:** ``` Actions : {} AvailabilityZone : us-west-2a Events : {} VolumeId : vol-12345678 VolumeStatus : Amazon.EC2.Model.VolumeStatusInfo ``` ``` (Get-EC2VolumeStatus -VolumeId vol-12345678).VolumeStatus ``` **Output:** ``` Details Status ------- ------ {io-enabled, io-performance} ok ``` ``` (Get-EC2VolumeStatus -VolumeId vol-12345678).VolumeStatus.Details ``` **Output:** ``` Name Status ---- ------ io-enabled passed io-performance not-applicable ``` + For API details, see [DescribeVolumeStatus](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeVolumes` with a CLI The following code examples show how to use `DescribeVolumes`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Working with Amazon EBS encryption, snapshots, and volume initialization](example_ec2_GettingStarted_022_section.md) ------ #### [ CLI ] **AWS CLI** **Example 1: To describe a volume** The following `describe-volumes` example describes the specified volumes in the current Region. ``` aws ec2 describe-volumes \ --volume-ids vol-049df61146c4d7901 vol-1234567890abcdef0 ``` Output: ``` { "Volumes": [ { "AvailabilityZone": "us-east-1a", "Attachments": [ { "AttachTime": "2013-12-18T22:35:00.000Z", "InstanceId": "i-1234567890abcdef0", "VolumeId": "vol-049df61146c4d7901", "State": "attached", "DeleteOnTermination": true, "Device": "/dev/sda1" } ], "Encrypted": true, "KmsKeyId": "arn:aws:kms:us-east-2a:123456789012:key/8c5b2c63-b9bc-45a3-a87a-5513eEXAMPLE, "VolumeType": "gp2", "VolumeId": "vol-049df61146c4d7901", "State": "in-use", "Iops": 100, "SnapshotId": "snap-1234567890abcdef0", "CreateTime": "2019-12-18T22:35:00.084Z", "Size": 8 }, { "AvailabilityZone": "us-east-1a", "Attachments": [], "Encrypted": false, "VolumeType": "gp2", "VolumeId": "vol-1234567890abcdef0", "State": "available", "Iops": 300, "SnapshotId": "", "CreateTime": "2020-02-27T00:02:41.791Z", "Size": 100 } ] } ``` **Example 2: To describe volumes that are attached to a specific instance** The following `describe-volumes` example describes all volumes that are both attached to the specified instance and set to delete when the instance terminates. ``` aws ec2 describe-volumes \ --region us-east-1 \ --filters Name=attachment.instance-id,Values=i-1234567890abcdef0 Name=attachment.delete-on-termination,Values=true ``` For an example of the output for `describe-volumes`, see Example 1. **Example 3: To describe available volumes in a specific Availability Zone** The following `describe-volumes` example describes all volumes that have a status of `available` and are in the specified Availability Zone. ``` aws ec2 describe-volumes \ --filters Name=status,Values=available Name=availability-zone,Values=us-east-1a ``` For an example of the output for `describe-volumes`, see Example 1. **Example 4: To describe volumes based on tags** The following `describe-volumes` example describes all volumes that have the tag key `Name` and a value that begins with `Test`. The output is then filtered with a query that displays only the tags and IDs of the volumes. ``` aws ec2 describe-volumes \ --filters Name=tag:Name,Values=Test* \ --query "Volumes[*].{ID:VolumeId,Tag:Tags}" ``` Output: ``` [ { "Tag": [ { "Value": "Test2", "Key": "Name" } ], "ID": "vol-1234567890abcdef0" }, { "Tag": [ { "Value": "Test1", "Key": "Name" } ], "ID": "vol-049df61146c4d7901" } ] ``` For additional examples using tag filters, see [Working with tags](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Using_Tags.html#Using_Tags_CLI) in the *Amazon EC2 User Guide*. + For API details, see [DescribeVolumes](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-volumes.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified EBS volume.** ``` Get-EC2Volume -VolumeId vol-12345678 ``` **Output:** ``` Attachments : {} AvailabilityZone : us-west-2c CreateTime : 7/17/2015 4:35:19 PM Encrypted : False Iops : 90 KmsKeyId : Size : 30 SnapshotId : snap-12345678 State : in-use Tags : {} VolumeId : vol-12345678 VolumeType : standard ``` **Example 2: This example describes your EBS volumes that have the status 'available'.** ``` Get-EC2Volume -Filter @{ Name="status"; Values="available" } ``` **Output:** ``` Attachments : {} AvailabilityZone : us-west-2c CreateTime : 12/21/2015 2:31:29 PM Encrypted : False Iops : 60 KmsKeyId : Size : 20 SnapshotId : snap-12345678 State : available Tags : {} VolumeId : vol-12345678 VolumeType : gp2 ... ``` **Example 3: This example describes all your EBS volumes.** ``` Get-EC2Volume ``` + For API details, see [DescribeVolumes](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified EBS volume.** ``` Get-EC2Volume -VolumeId vol-12345678 ``` **Output:** ``` Attachments : {} AvailabilityZone : us-west-2c CreateTime : 7/17/2015 4:35:19 PM Encrypted : False Iops : 90 KmsKeyId : Size : 30 SnapshotId : snap-12345678 State : in-use Tags : {} VolumeId : vol-12345678 VolumeType : standard ``` **Example 2: This example describes your EBS volumes that have the status 'available'.** ``` Get-EC2Volume -Filter @{ Name="status"; Values="available" } ``` **Output:** ``` Attachments : {} AvailabilityZone : us-west-2c CreateTime : 12/21/2015 2:31:29 PM Encrypted : False Iops : 60 KmsKeyId : Size : 20 SnapshotId : snap-12345678 State : available Tags : {} VolumeId : vol-12345678 VolumeType : gp2 ... ``` **Example 3: This example describes all your EBS volumes.** ``` Get-EC2Volume ``` + For API details, see [DescribeVolumes](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeVpcAttribute` with a CLI The following code examples show how to use `DescribeVpcAttribute`. ------ #### [ CLI ] **AWS CLI** **To describe the enableDnsSupport attribute** This example describes the `enableDnsSupport` attribute. This attribute indicates whether DNS resolution is enabled for the VPC. If this attribute is `true`, the Amazon DNS server resolves DNS hostnames for your instances to their corresponding IP addresses; otherwise, it does not. Command: ``` aws ec2 describe-vpc-attribute --vpc-id vpc-a01106c2 --attribute enableDnsSupport ``` Output: ``` { "VpcId": "vpc-a01106c2", "EnableDnsSupport": { "Value": true } } ``` **To describe the enableDnsHostnames attribute** This example describes the `enableDnsHostnames` attribute. This attribute indicates whether the instances launched in the VPC get DNS hostnames. If this attribute is `true`, instances in the VPC get DNS hostnames; otherwise, they do not. Command: ``` aws ec2 describe-vpc-attribute --vpc-id vpc-a01106c2 --attribute enableDnsHostnames ``` Output: ``` { "VpcId": "vpc-a01106c2", "EnableDnsHostnames": { "Value": true } } ``` + For API details, see [DescribeVpcAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the 'enableDnsSupport' attribute.** ``` Get-EC2VpcAttribute -VpcId vpc-12345678 -Attribute enableDnsSupport ``` **Output:** ``` EnableDnsSupport ---------------- True ``` **Example 2: This example describes the 'enableDnsHostnames' attribute.** ``` Get-EC2VpcAttribute -VpcId vpc-12345678 -Attribute enableDnsHostnames ``` **Output:** ``` EnableDnsHostnames ------------------ True ``` + For API details, see [DescribeVpcAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the 'enableDnsSupport' attribute.** ``` Get-EC2VpcAttribute -VpcId vpc-12345678 -Attribute enableDnsSupport ``` **Output:** ``` EnableDnsSupport ---------------- True ``` **Example 2: This example describes the 'enableDnsHostnames' attribute.** ``` Get-EC2VpcAttribute -VpcId vpc-12345678 -Attribute enableDnsHostnames ``` **Output:** ``` EnableDnsHostnames ------------------ True ``` + For API details, see [DescribeVpcAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeVpcClassicLink` with a CLI The following code examples show how to use `DescribeVpcClassicLink`. ------ #### [ CLI ] **AWS CLI** **To describe the ClassicLink status of your VPCs** This example lists the ClassicLink status of vpc-88888888. Command: ``` aws ec2 describe-vpc-classic-link --vpc-id vpc-88888888 ``` Output: ``` { "Vpcs": [ { "ClassicLinkEnabled": true, "VpcId": "vpc-88888888", "Tags": [ { "Value": "classiclinkvpc", "Key": "Name" } ] } ] } ``` This example lists only VPCs that are enabled for Classiclink (the filter value of `is-classic-link-enabled` is set to `true`). Command: ``` aws ec2 describe-vpc-classic-link --filter "Name=is-classic-link-enabled,Values=true" ``` + For API details, see [DescribeVpcClassicLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-classic-link.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: Above example returns all the VPCs with their ClassicLinkEnabled state for the region** ``` Get-EC2VpcClassicLink -Region eu-west-1 ``` **Output:** ``` ClassicLinkEnabled Tags VpcId ------------------ ---- ----- False {Name} vpc-0fc1ff23f45b678eb False {} vpc-01e23c4a5d6db78e9 False {Name} vpc-0123456b078b9d01f False {} vpc-12cf3b4f False {Name} vpc-0b12d3456a7e8901d ``` + For API details, see [DescribeVpcClassicLink](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: Above example returns all the VPCs with their ClassicLinkEnabled state for the region** ``` Get-EC2VpcClassicLink -Region eu-west-1 ``` **Output:** ``` ClassicLinkEnabled Tags VpcId ------------------ ---- ----- False {Name} vpc-0fc1ff23f45b678eb False {} vpc-01e23c4a5d6db78e9 False {Name} vpc-0123456b078b9d01f False {} vpc-12cf3b4f False {Name} vpc-0b12d3456a7e8901d ``` + For API details, see [DescribeVpcClassicLink](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeVpcClassicLinkDnsSupport` with a CLI The following code examples show how to use `DescribeVpcClassicLinkDnsSupport`. ------ #### [ CLI ] **AWS CLI** **To describe ClassicLink DNS support for your VPCs** This example describes the ClassicLink DNS support status of all of your VPCs. Command: ``` aws ec2 describe-vpc-classic-link-dns-support ``` Output: ``` { "Vpcs": [ { "VpcId": "vpc-88888888", "ClassicLinkDnsSupported": true }, { "VpcId": "vpc-1a2b3c4d", "ClassicLinkDnsSupported": false } ] } ``` + For API details, see [DescribeVpcClassicLinkDnsSupport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-classic-link-dns-support.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the ClassicLink DNS support status of VPCs for the region eu-west-1** ``` Get-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d -Region eu-west-1 ``` **Output:** ``` ClassicLinkDnsSupported VpcId ----------------------- ----- False vpc-0b12d3456a7e8910d False vpc-12cf3b4f ``` + For API details, see [DescribeVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the ClassicLink DNS support status of VPCs for the region eu-west-1** ``` Get-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d -Region eu-west-1 ``` **Output:** ``` ClassicLinkDnsSupported VpcId ----------------------- ----- False vpc-0b12d3456a7e8910d False vpc-12cf3b4f ``` + For API details, see [DescribeVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeVpcEndpointServices` with a CLI The following code examples show how to use `DescribeVpcEndpointServices`. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe all VPC endpoint services** The following `describe-vpc-endpoint-services` example lists all VPC endpoint services for an AWS Region. ``` aws ec2 describe-vpc-endpoint-services ``` Output: ``` { "ServiceDetails": [ { "ServiceType": [ { "ServiceType": "Gateway" } ], "AcceptanceRequired": false, "ServiceName": "com.amazonaws.us-east-1.dynamodb", "VpcEndpointPolicySupported": true, "Owner": "amazon", "AvailabilityZones": [ "us-east-1a", "us-east-1b", "us-east-1c", "us-east-1d", "us-east-1e", "us-east-1f" ], "BaseEndpointDnsNames": [ "dynamodb.us-east-1.amazonaws.com" ] }, { "ServiceType": [ { "ServiceType": "Interface" } ], "PrivateDnsName": "ec2.us-east-1.amazonaws.com", "ServiceName": "com.amazonaws.us-east-1.ec2", "VpcEndpointPolicySupported": false, "Owner": "amazon", "AvailabilityZones": [ "us-east-1a", "us-east-1b", "us-east-1c", "us-east-1d", "us-east-1e", "us-east-1f" ], "AcceptanceRequired": false, "BaseEndpointDnsNames": [ "ec2.us-east-1.vpce.amazonaws.com" ] }, { "ServiceType": [ { "ServiceType": "Interface" } ], "PrivateDnsName": "ssm.us-east-1.amazonaws.com", "ServiceName": "com.amazonaws.us-east-1.ssm", "VpcEndpointPolicySupported": true, "Owner": "amazon", "AvailabilityZones": [ "us-east-1a", "us-east-1b", "us-east-1c", "us-east-1d", "us-east-1e" ], "AcceptanceRequired": false, "BaseEndpointDnsNames": [ "ssm.us-east-1.vpce.amazonaws.com" ] } ], "ServiceNames": [ "com.amazonaws.us-east-1.dynamodb", "com.amazonaws.us-east-1.ec2", "com.amazonaws.us-east-1.ec2messages", "com.amazonaws.us-east-1.elasticloadbalancing", "com.amazonaws.us-east-1.kinesis-streams", "com.amazonaws.us-east-1.s3", "com.amazonaws.us-east-1.ssm" ] } ``` **Example 2: To describe the details about an endpoint service** The following `describe-vpc-endpoint-services` example lists the details of the Amazon S3 interface endpoint service. ``` aws ec2 describe-vpc-endpoint-services \ --filter 'Name=service-type,Values=Interface' Name=service-name,Values=com.amazonaws.us-east-1.s3 ``` Output: ``` { "ServiceDetails": [ { "ServiceName": "com.amazonaws.us-east-1.s3", "ServiceId": "vpce-svc-081d84efcdEXAMPLE", "ServiceType": [ { "ServiceType": "Interface" } ], "AvailabilityZones": [ "us-east-1a", "us-east-1b", "us-east-1c", "us-east-1d", "us-east-1e", "us-east-1f" ], "Owner": "amazon", "BaseEndpointDnsNames": [ "s3.us-east-1.vpce.amazonaws.com" ], "VpcEndpointPolicySupported": true, "AcceptanceRequired": false, "ManagesVpcEndpoints": false, "Tags": [] } ], "ServiceNames": [ "com.amazonaws.us-east-1.s3" ] } ``` For more information, see [View available AWS service names](https://docs.aws.amazon.com/vpc/latest/privatelink/aws-services-privatelink-support.html#vpce-view-available-services) in the *AWS PrivateLink User Guide*. + For API details, see [DescribeVpcEndpointServices](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-endpoint-services.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes EC2 VPC endpoint service with the given filter, in this case com.amazonaws.eu-west-1.ecs. Further, it also expands the ServiceDetails property and displays the details** ``` Get-EC2VpcEndpointService -Region eu-west-1 -MaxResult 5 -Filter @{Name="service-name";Values="com.amazonaws.eu-west-1.ecs"} | Select-Object -ExpandProperty ServiceDetails ``` **Output:** ``` AcceptanceRequired : False AvailabilityZones : {eu-west-1a, eu-west-1b, eu-west-1c} BaseEndpointDnsNames : {ecs.eu-west-1.vpce.amazonaws.com} Owner : amazon PrivateDnsName : ecs.eu-west-1.amazonaws.com ServiceName : com.amazonaws.eu-west-1.ecs ServiceType : {Amazon.EC2.Model.ServiceTypeDetail} VpcEndpointPolicySupported : False ``` **Example 2: This example retrieves all the EC2 VPC Endpoint services and returns the ServiceNames matching "ssm"** ``` Get-EC2VpcEndpointService -Region eu-west-1 | Select-Object -ExpandProperty Servicenames | Where-Object { -match "ssm"} ``` **Output:** ``` com.amazonaws.eu-west-1.ssm com.amazonaws.eu-west-1.ssmmessages ``` + For API details, see [DescribeVpcEndpointServices](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes EC2 VPC endpoint service with the given filter, in this case com.amazonaws.eu-west-1.ecs. Further, it also expands the ServiceDetails property and displays the details** ``` Get-EC2VpcEndpointService -Region eu-west-1 -MaxResult 5 -Filter @{Name="service-name";Values="com.amazonaws.eu-west-1.ecs"} | Select-Object -ExpandProperty ServiceDetails ``` **Output:** ``` AcceptanceRequired : False AvailabilityZones : {eu-west-1a, eu-west-1b, eu-west-1c} BaseEndpointDnsNames : {ecs.eu-west-1.vpce.amazonaws.com} Owner : amazon PrivateDnsName : ecs.eu-west-1.amazonaws.com ServiceName : com.amazonaws.eu-west-1.ecs ServiceType : {Amazon.EC2.Model.ServiceTypeDetail} VpcEndpointPolicySupported : False ``` **Example 2: This example retrieves all the EC2 VPC Endpoint services and returns the ServiceNames matching "ssm"** ``` Get-EC2VpcEndpointService -Region eu-west-1 | Select-Object -ExpandProperty Servicenames | Where-Object { -match "ssm"} ``` **Output:** ``` com.amazonaws.eu-west-1.ssm com.amazonaws.eu-west-1.ssmmessages ``` + For API details, see [DescribeVpcEndpointServices](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeVpcEndpoints` with a CLI The following code examples show how to use `DescribeVpcEndpoints`. ------ #### [ CLI ] **AWS CLI** **To describe your VPC endpoints** The following `describe-vpc-endpoints` example displays details for all of your VPC endpoints. ``` aws ec2 describe-vpc-endpoints ``` Output: ``` { "VpcEndpoints": [ { "PolicyDocument": "{\"Version\":\"2008-10-17\",\"Statement\":[{\"Effect\":\"Allow\",\"Principal\":\"*\",\"Action\":\"*\",\"Resource\":\"*\"}]}", "VpcId": "vpc-aabb1122", "NetworkInterfaceIds": [], "SubnetIds": [], "PrivateDnsEnabled": true, "State": "available", "ServiceName": "com.amazonaws.us-east-1.dynamodb", "RouteTableIds": [ "rtb-3d560345" ], "Groups": [], "VpcEndpointId": "vpce-032a826a", "VpcEndpointType": "Gateway", "CreationTimestamp": "2017-09-05T20:41:28Z", "DnsEntries": [], "OwnerId": "123456789012" }, { "PolicyDocument": "{\n \"Statement\": [\n {\n \"Action\": \"*\", \n \"Effect\": \"Allow\", \n \"Principal\": \"*\", \n \"Resource\": \"*\"\n }\n ]\n}", "VpcId": "vpc-1a2b3c4d", "NetworkInterfaceIds": [ "eni-2ec2b084", "eni-1b4a65cf" ], "SubnetIds": [ "subnet-d6fcaa8d", "subnet-7b16de0c" ], "PrivateDnsEnabled": false, "State": "available", "ServiceName": "com.amazonaws.us-east-1.elasticloadbalancing", "RouteTableIds": [], "Groups": [ { "GroupName": "default", "GroupId": "sg-54e8bf31" } ], "VpcEndpointId": "vpce-0f89a33420c1931d7", "VpcEndpointType": "Interface", "CreationTimestamp": "2017-09-05T17:55:27.583Z", "DnsEntries": [ { "HostedZoneId": "Z7HUB22UULQXV", "DnsName": "vpce-0f89a33420c1931d7-bluzidnv.elasticloadbalancing.us-east-1.vpce.amazonaws.com" }, { "HostedZoneId": "Z7HUB22UULQXV", "DnsName": "vpce-0f89a33420c1931d7-bluzidnv-us-east-1b.elasticloadbalancing.us-east-1.vpce.amazonaws.com" }, { "HostedZoneId": "Z7HUB22UULQXV", "DnsName": "vpce-0f89a33420c1931d7-bluzidnv-us-east-1a.elasticloadbalancing.us-east-1.vpce.amazonaws.com" } ], "OwnerId": "123456789012" }, { "VpcEndpointId": "vpce-aabbaabbaabbaabba", "VpcEndpointType": "GatewayLoadBalancer", "VpcId": "vpc-111122223333aabbc", "ServiceName": "com.amazonaws.vpce.us-east-1.vpce-svc-123123a1c43abc123", "State": "available", "SubnetIds": [ "subnet-0011aabbcc2233445" ], "RequesterManaged": false, "NetworkInterfaceIds": [ "eni-01010120203030405" ], "CreationTimestamp": "2020-11-11T08:06:03.522Z", "Tags": [], "OwnerId": "123456789012" } ] } ``` For more information, see [Concepts](https://docs.aws.amazon.com/vpc/latest/privatelink/concepts.html) in the *AWS PrivateLink User Guide*. + For API details, see [DescribeVpcEndpoints](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpc-endpoints.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes one or more of your VPC endpoints for the region eu-west-1. It then pipes the output to the next command, which select the VpcEndpointId property and returns array VPC ID as string array** ``` Get-EC2VpcEndpoint -Region eu-west-1 | Select-Object -ExpandProperty VpcEndpointId ``` **Output:** ``` vpce-01a2ab3f4f5cc6f7d vpce-01d2b345a6787890b vpce-0012e34d567890e12 vpce-0c123db4567890123 ``` **Example 2: This example describes all the vpc endpoints for the region eu-west-1 and selects VpcEndpointId, VpcId, ServiceName and PrivateDnsEnabled properties to present it in a tabular format** ``` Get-EC2VpcEndpoint -Region eu-west-1 | Select-Object VpcEndpointId, VpcId, ServiceName, PrivateDnsEnabled | Format-Table -AutoSize ``` **Output:** ``` VpcEndpointId VpcId ServiceName PrivateDnsEnabled ------------- ----- ----------- ----------------- vpce-02a2ab2f2f2cc2f2d vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ssm True vpce-01d1b111a1114561b vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ec2 True vpce-0011e23d45167e838 vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ec2messages True vpce-0c123db4567890123 vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ssmmessages True ``` **Example 3: This example exports the policy document for the VPC Endpoint vpce-01a2ab3f4f5cc6f7d into a json file** ``` Get-EC2VpcEndpoint -Region eu-west-1 -VpcEndpointId vpce-01a2ab3f4f5cc6f7d | Select-Object -expand PolicyDocument | Out-File vpce_policyDocument.json ``` + For API details, see [DescribeVpcEndpoints](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes one or more of your VPC endpoints for the region eu-west-1. It then pipes the output to the next command, which select the VpcEndpointId property and returns array VPC ID as string array** ``` Get-EC2VpcEndpoint -Region eu-west-1 | Select-Object -ExpandProperty VpcEndpointId ``` **Output:** ``` vpce-01a2ab3f4f5cc6f7d vpce-01d2b345a6787890b vpce-0012e34d567890e12 vpce-0c123db4567890123 ``` **Example 2: This example describes all the vpc endpoints for the region eu-west-1 and selects VpcEndpointId, VpcId, ServiceName and PrivateDnsEnabled properties to present it in a tabular format** ``` Get-EC2VpcEndpoint -Region eu-west-1 | Select-Object VpcEndpointId, VpcId, ServiceName, PrivateDnsEnabled | Format-Table -AutoSize ``` **Output:** ``` VpcEndpointId VpcId ServiceName PrivateDnsEnabled ------------- ----- ----------- ----------------- vpce-02a2ab2f2f2cc2f2d vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ssm True vpce-01d1b111a1114561b vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ec2 True vpce-0011e23d45167e838 vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ec2messages True vpce-0c123db4567890123 vpc-0fc6ff46f65b039eb com.amazonaws.eu-west-1.ssmmessages True ``` **Example 3: This example exports the policy document for the VPC Endpoint vpce-01a2ab3f4f5cc6f7d into a json file** ``` Get-EC2VpcEndpoint -Region eu-west-1 -VpcEndpointId vpce-01a2ab3f4f5cc6f7d | Select-Object -expand PolicyDocument | Out-File vpce_policyDocument.json ``` + For API details, see [DescribeVpcEndpoints](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeVpcs` with an AWS SDK or CLI The following code examples show how to use `DescribeVpcs`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Build and manage a resilient service](example_cross_ResilientService_section.md) + [Configure Amazon ECS Service Connect](example_ecs_ServiceConnect_085_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Create an Amazon ECS Linux task for the Fargate launch type](example_ecs_GettingStarted_086_section.md) + [Creating an Amazon ECS service for the EC2 launch type](example_ecs_GettingStarted_018_section.md) + [Creating an Amazon RDS DB instance](example_rds_GettingStarted_036_section.md) + [Creating and managing a VPC Lattice service network](example_vpc_lattice_GettingStarted_055_section.md) + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Getting started with Amazon DocumentDB](example_docdb_GettingStarted_025_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) + [Getting started with Amazon VPC Transit Gateway](example_vpc_TransitGatewayGettingStarted_section.md) + [Getting started with Elastic Load Balancing](example_elastic_load_balancing_v2_GettingStarted_058_section.md) + [VPC with IPAM](example_vpc_GettingStartedIpam_section.md) + [Working with VPC peering connections](example_ec2_GettingStarted_015_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). ``` /// /// Get the default VPC for the account. /// /// The default VPC object. public async Task GetDefaultVpc() { try { var vpcResponse = await _amazonEc2.DescribeVpcsAsync( new DescribeVpcsRequest() { Filters = new List() { new("is-default", new List() { "true" }) } }); return vpcResponse.Vpcs[0]; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "UnauthorizedOperation") { _logger.LogError(ec2Exception, $"You do not have the necessary permissions to describe VPCs."); } throw; } catch (Exception ex) { _logger.LogError(ex, $"An error occurred while describing the vpcs.: {ex.Message}"); throw; } } ``` + For API details, see [DescribeVpcs](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DescribeVpcs) in *AWS SDK for .NET API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe all of your VPCs** The following `describe-vpcs` example retrieves details about your VPCs. ``` aws ec2 describe-vpcs ``` Output: ``` { "Vpcs": [ { "CidrBlock": "30.1.0.0/16", "DhcpOptionsId": "dopt-19edf471", "State": "available", "VpcId": "vpc-0e9801d129EXAMPLE", "OwnerId": "111122223333", "InstanceTenancy": "default", "CidrBlockAssociationSet": [ { "AssociationId": "vpc-cidr-assoc-062c64cfafEXAMPLE", "CidrBlock": "30.1.0.0/16", "CidrBlockState": { "State": "associated" } } ], "IsDefault": false, "Tags": [ { "Key": "Name", "Value": "Not Shared" } ] }, { "CidrBlock": "10.0.0.0/16", "DhcpOptionsId": "dopt-19edf471", "State": "available", "VpcId": "vpc-06e4ab6c6cEXAMPLE", "OwnerId": "222222222222", "InstanceTenancy": "default", "CidrBlockAssociationSet": [ { "AssociationId": "vpc-cidr-assoc-00b17b4eddEXAMPLE", "CidrBlock": "10.0.0.0/16", "CidrBlockState": { "State": "associated" } } ], "IsDefault": false, "Tags": [ { "Key": "Name", "Value": "Shared VPC" } ] } ] } ``` **Example 2: To describe a specified VPC** The following `describe-vpcs` example retrieves details for the specified VPC. ``` aws ec2 describe-vpcs \ --vpc-ids vpc-06e4ab6c6cEXAMPLE ``` Output: ``` { "Vpcs": [ { "CidrBlock": "10.0.0.0/16", "DhcpOptionsId": "dopt-19edf471", "State": "available", "VpcId": "vpc-06e4ab6c6cEXAMPLE", "OwnerId": "111122223333", "InstanceTenancy": "default", "CidrBlockAssociationSet": [ { "AssociationId": "vpc-cidr-assoc-00b17b4eddEXAMPLE", "CidrBlock": "10.0.0.0/16", "CidrBlockState": { "State": "associated" } } ], "IsDefault": false, "Tags": [ { "Key": "Name", "Value": "Shared VPC" } ] } ] } ``` + For API details, see [DescribeVpcs](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpcs.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). ``` const client = new EC2Client({}); const { Vpcs } = await client.send( new DescribeVpcsCommand({ Filters: [{ Name: "is-default", Values: ["true"] }], }), ); ``` + For API details, see [DescribeVpcs](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DescribeVpcsCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified VPC.** ``` Get-EC2Vpc -VpcId vpc-12345678 ``` **Output:** ``` CidrBlock : 10.0.0.0/16 DhcpOptionsId : dopt-1a2b3c4d InstanceTenancy : default IsDefault : False State : available Tags : {Name} VpcId : vpc-12345678 ``` **Example 2: This example describes the default VPC (there can be only one per region). If your account supports EC2-Classic in this region, there is no default VPC.** ``` Get-EC2Vpc -Filter @{Name="isDefault"; Values="true"} ``` **Output:** ``` CidrBlock : 172.31.0.0/16 DhcpOptionsId : dopt-12345678 InstanceTenancy : default IsDefault : True State : available Tags : {} VpcId : vpc-45678901 ``` **Example 3: This example describes the VPCs that match the specified filter (that is, have a CIDR that matches the value '10.0.0.0/16' and are in the state 'available').** ``` Get-EC2Vpc -Filter @{Name="cidr"; Values="10.0.0.0/16"},@{Name="state";Values="available"} ``` **Example 4: This example describes all your VPCs.** ``` Get-EC2Vpc ``` + For API details, see [DescribeVpcs](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified VPC.** ``` Get-EC2Vpc -VpcId vpc-12345678 ``` **Output:** ``` CidrBlock : 10.0.0.0/16 DhcpOptionsId : dopt-1a2b3c4d InstanceTenancy : default IsDefault : False State : available Tags : {Name} VpcId : vpc-12345678 ``` **Example 2: This example describes the default VPC (there can be only one per region). If your account supports EC2-Classic in this region, there is no default VPC.** ``` Get-EC2Vpc -Filter @{Name="isDefault"; Values="true"} ``` **Output:** ``` CidrBlock : 172.31.0.0/16 DhcpOptionsId : dopt-12345678 InstanceTenancy : default IsDefault : True State : available Tags : {} VpcId : vpc-45678901 ``` **Example 3: This example describes the VPCs that match the specified filter (that is, have a CIDR that matches the value '10.0.0.0/16' and are in the state 'available').** ``` Get-EC2Vpc -Filter @{Name="cidr"; Values="10.0.0.0/16"},@{Name="state";Values="available"} ``` **Example 4: This example describes all your VPCs.** ``` Get-EC2Vpc ``` + For API details, see [DescribeVpcs](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class AutoScalingWrapper: """ Encapsulates Amazon EC2 Auto Scaling and EC2 management actions. """ def __init__( self, resource_prefix: str, inst_type: str, ami_param: str, autoscaling_client: boto3.client, ec2_client: boto3.client, ssm_client: boto3.client, iam_client: boto3.client, ): """ Initializes the AutoScaler class with the necessary parameters. :param resource_prefix: The prefix for naming AWS resources that are created by this class. :param inst_type: The type of EC2 instance to create, such as t3.micro. :param ami_param: The Systems Manager parameter used to look up the AMI that is created. :param autoscaling_client: A Boto3 EC2 Auto Scaling client. :param ec2_client: A Boto3 EC2 client. :param ssm_client: A Boto3 Systems Manager client. :param iam_client: A Boto3 IAM client. """ self.inst_type = inst_type self.ami_param = ami_param self.autoscaling_client = autoscaling_client self.ec2_client = ec2_client self.ssm_client = ssm_client self.iam_client = iam_client sts_client = boto3.client("sts") self.account_id = sts_client.get_caller_identity()["Account"] self.key_pair_name = f"{resource_prefix}-key-pair" self.launch_template_name = f"{resource_prefix}-template-" self.group_name = f"{resource_prefix}-group" # Happy path self.instance_policy_name = f"{resource_prefix}-pol" self.instance_role_name = f"{resource_prefix}-role" self.instance_profile_name = f"{resource_prefix}-prof" # Failure mode self.bad_creds_policy_name = f"{resource_prefix}-bc-pol" self.bad_creds_role_name = f"{resource_prefix}-bc-role" self.bad_creds_profile_name = f"{resource_prefix}-bc-prof" def get_default_vpc(self) -> Dict[str, Any]: """ Gets the default VPC for the account. :return: Data about the default VPC. """ try: response = self.ec2_client.describe_vpcs( Filters=[{"Name": "is-default", "Values": ["true"]}] ) except ClientError as err: error_code = err.response["Error"]["Code"] log.error("Failed to retrieve the default VPC.") if error_code == "UnauthorizedOperation": log.error( "You do not have the necessary permissions to describe VPCs. " "Ensure that your AWS IAM user or role has the correct permissions." ) elif error_code == "InvalidParameterValue": log.error( "One or more parameters are invalid. Check the request parameters." ) log.error(f"Full error:\n\t{err}") else: if "Vpcs" in response and response["Vpcs"]: log.info(f"Retrieved default VPC: {response['Vpcs'][0]['VpcId']}") return response["Vpcs"][0] else: pass ``` + For API details, see [DescribeVpcs](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DescribeVpcs) in *AWS SDK for Python (Boto3) API Reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeVpnConnections` with a CLI The following code examples show how to use `DescribeVpnConnections`. ------ #### [ CLI ] **AWS CLI** **Example 1: To describe your VPN connections** The following `describe-vpn-connections` example describes all of your Site-to-Site VPN connections. ``` aws ec2 describe-vpn-connections ``` Output: ``` { "VpnConnections": [ { "CustomerGatewayConfiguration": "...configuration information...", "CustomerGatewayId": "cgw-01234567abcde1234", "Category": "VPN", "State": "available", "Type": "ipsec.1", "VpnConnectionId": "vpn-1122334455aabbccd", "TransitGatewayId": "tgw-00112233445566aab", "Options": { "EnableAcceleration": false, "StaticRoutesOnly": true, "LocalIpv4NetworkCidr": "0.0.0.0/0", "RemoteIpv4NetworkCidr": "0.0.0.0/0", "TunnelInsideIpVersion": "ipv4" }, "Routes": [], "Tags": [ { "Key": "Name", "Value": "CanadaVPN" } ], "VgwTelemetry": [ { "AcceptedRouteCount": 0, "LastStatusChange": "2020-07-29T10:35:11.000Z", "OutsideIpAddress": "203.0.113.3", "Status": "DOWN", "StatusMessage": "" }, { "AcceptedRouteCount": 0, "LastStatusChange": "2020-09-02T09:09:33.000Z", "OutsideIpAddress": "203.0.113.5", "Status": "UP", "StatusMessage": "" } ] } ] } ``` For more information, see [How AWS Site-to-Site VPN works](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) in the *AWS Site-to-Site VPN User Guide*. **Example 2: To describe your available VPN connections** The following `describe-vpn-connections` example describes your Site-to-Site VPN connections with a state of `available`. ``` aws ec2 describe-vpn-connections \ --filters "Name=state,Values=available" ``` For more information, see [How AWS Site-to-Site VPN works](https://docs.aws.amazon.com/vpn/latest/s2svpn/how_it_works.html) in the *AWS Site-to-Site VPN User Guide*. + For API details, see [DescribeVpnConnections](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpn-connections.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified VPN connection.** ``` Get-EC2VpnConnection -VpnConnectionId vpn-12345678 ``` **Output:** ``` CustomerGatewayConfiguration : [XML document] CustomerGatewayId : cgw-1a2b3c4d Options : Amazon.EC2.Model.VpnConnectionOptions Routes : {Amazon.EC2.Model.VpnStaticRoute} State : available Tags : {} Type : ipsec.1 VgwTelemetry : {Amazon.EC2.Model.VgwTelemetry, Amazon.EC2.Model.VgwTelemetry} VpnConnectionId : vpn-12345678 VpnGatewayId : vgw-1a2b3c4d ``` **Example 2: This example describes any VPN connection whose state is either pending or available.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "state" $filter.Values = @( "pending", "available" ) Get-EC2VpnConnection -Filter $filter ``` **Example 3: This example describes all your VPN connections.** ``` Get-EC2VpnConnection ``` + For API details, see [DescribeVpnConnections](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified VPN connection.** ``` Get-EC2VpnConnection -VpnConnectionId vpn-12345678 ``` **Output:** ``` CustomerGatewayConfiguration : [XML document] CustomerGatewayId : cgw-1a2b3c4d Options : Amazon.EC2.Model.VpnConnectionOptions Routes : {Amazon.EC2.Model.VpnStaticRoute} State : available Tags : {} Type : ipsec.1 VgwTelemetry : {Amazon.EC2.Model.VgwTelemetry, Amazon.EC2.Model.VgwTelemetry} VpnConnectionId : vpn-12345678 VpnGatewayId : vgw-1a2b3c4d ``` **Example 2: This example describes any VPN connection whose state is either pending or available.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "state" $filter.Values = @( "pending", "available" ) Get-EC2VpnConnection -Filter $filter ``` **Example 3: This example describes all your VPN connections.** ``` Get-EC2VpnConnection ``` + For API details, see [DescribeVpnConnections](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DescribeVpnGateways` with a CLI The following code examples show how to use `DescribeVpnGateways`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Get started with Aws Direct Connect](example_directconnect_GettingStarted_051_section.md) ------ #### [ CLI ] **AWS CLI** **To describe your virtual private gateways** This example describes your virtual private gateways. Command: ``` aws ec2 describe-vpn-gateways ``` Output: ``` { "VpnGateways": [ { "State": "available", "Type": "ipsec.1", "VpnGatewayId": "vgw-f211f09b", "VpcAttachments": [ { "State": "attached", "VpcId": "vpc-98eb5ef5" } ] }, { "State": "available", "Type": "ipsec.1", "VpnGatewayId": "vgw-9a4cacf3", "VpcAttachments": [ { "State": "attaching", "VpcId": "vpc-a01106c2" } ] } ] } ``` + For API details, see [DescribeVpnGateways](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/describe-vpn-gateways.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example describes the specified virtual private gateway.** ``` Get-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d ``` **Output:** ``` AvailabilityZone : State : available Tags : {} Type : ipsec.1 VpcAttachments : {vpc-12345678} VpnGatewayId : vgw-1a2b3c4d ``` **Example 2: This example describes any virtual private gateway whose state is either pending or available.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "state" $filter.Values = @( "pending", "available" ) Get-EC2VpnGateway -Filter $filter ``` **Example 3: This example describes all your virtual private gateways.** ``` Get-EC2VpnGateway ``` + For API details, see [DescribeVpnGateways](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example describes the specified virtual private gateway.** ``` Get-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d ``` **Output:** ``` AvailabilityZone : State : available Tags : {} Type : ipsec.1 VpcAttachments : {vpc-12345678} VpnGatewayId : vgw-1a2b3c4d ``` **Example 2: This example describes any virtual private gateway whose state is either pending or available.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "state" $filter.Values = @( "pending", "available" ) Get-EC2VpnGateway -Filter $filter ``` **Example 3: This example describes all your virtual private gateways.** ``` Get-EC2VpnGateway ``` + For API details, see [DescribeVpnGateways](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DetachInternetGateway` with a CLI The following code examples show how to use `DetachInternetGateway`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ CLI ] **AWS CLI** **To detach an internet gateway from your VPC** The following `detach-internet-gateway` example detaches the specified internet gateway from the specific VPC. ``` aws ec2 detach-internet-gateway \ --internet-gateway-id igw-0d0fb496b3EXAMPLE \ --vpc-id vpc-0a60eb65b4EXAMPLE ``` This command produces no output. For more information, see [Internet gateways](https://docs.aws.amazon.com/vpc/latest/userguide/VPC_Internet_Gateway.html) in the *Amazon VPC User Guide*. + For API details, see [DetachInternetGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/detach-internet-gateway.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example detaches the specified Internet gateway from the specified VPC.** ``` Dismount-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d -VpcId vpc-12345678 ``` + For API details, see [DetachInternetGateway](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example detaches the specified Internet gateway from the specified VPC.** ``` Dismount-EC2InternetGateway -InternetGatewayId igw-1a2b3c4d -VpcId vpc-12345678 ``` + For API details, see [DetachInternetGateway](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DetachNetworkInterface` with a CLI The following code examples show how to use `DetachNetworkInterface`. ------ #### [ CLI ] **AWS CLI** **To detach a network interface from your instance** This example detaches the specified network interface from the specified instance. If the command succeeds, no output is returned. Command: ``` aws ec2 detach-network-interface --attachment-id eni-attach-66c4350a ``` + For API details, see [DetachNetworkInterface](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/detach-network-interface.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example removes the specified attachment between a network interface and an instance.** ``` Dismount-EC2NetworkInterface -AttachmentId eni-attach-1a2b3c4d -Force ``` + For API details, see [DetachNetworkInterface](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example removes the specified attachment between a network interface and an instance.** ``` Dismount-EC2NetworkInterface -AttachmentId eni-attach-1a2b3c4d -Force ``` + For API details, see [DetachNetworkInterface](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DetachVolume` with a CLI The following code examples show how to use `DetachVolume`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Working with Amazon EBS encryption, snapshots, and volume initialization](example_ec2_GettingStarted_022_section.md) ------ #### [ CLI ] **AWS CLI** **To detach a volume from an instance** This example command detaches the volume (`vol-049df61146c4d7901`) from the instance it is attached to. Command: ``` aws ec2 detach-volume --volume-id vol-1234567890abcdef0 ``` Output: ``` { "AttachTime": "2014-02-27T19:23:06.000Z", "InstanceId": "i-1234567890abcdef0", "VolumeId": "vol-049df61146c4d7901", "State": "detaching", "Device": "/dev/sdb" } ``` + For API details, see [DetachVolume](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/detach-volume.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example detaches the specified volume.** ``` Dismount-EC2Volume -VolumeId vol-12345678 ``` **Output:** ``` AttachTime : 12/22/2015 1:53:58 AM DeleteOnTermination : False Device : /dev/sdh InstanceId : i-1a2b3c4d State : detaching VolumeId : vol-12345678 ``` **Example 2: You can also specify the instance ID and device name to ensure that you are detaching the correct volume.** ``` Dismount-EC2Volume -VolumeId vol-12345678 -InstanceId i-1a2b3c4d -Device /dev/sdh ``` + For API details, see [DetachVolume](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example detaches the specified volume.** ``` Dismount-EC2Volume -VolumeId vol-12345678 ``` **Output:** ``` AttachTime : 12/22/2015 1:53:58 AM DeleteOnTermination : False Device : /dev/sdh InstanceId : i-1a2b3c4d State : detaching VolumeId : vol-12345678 ``` **Example 2: You can also specify the instance ID and device name to ensure that you are detaching the correct volume.** ``` Dismount-EC2Volume -VolumeId vol-12345678 -InstanceId i-1a2b3c4d -Device /dev/sdh ``` + For API details, see [DetachVolume](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DetachVpnGateway` with a CLI The following code examples show how to use `DetachVpnGateway`. ------ #### [ CLI ] **AWS CLI** **To detach a virtual private gateway from your VPC** This example detaches the specified virtual private gateway from the specified VPC. If the command succeeds, no output is returned. Command: ``` aws ec2 detach-vpn-gateway --vpn-gateway-id vgw-9a4cacf3 --vpc-id vpc-a01106c2 ``` + For API details, see [DetachVpnGateway](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/detach-vpn-gateway.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example detaches the specified virtual private gateway from the specified VPC.** ``` Dismount-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d -VpcId vpc-12345678 ``` + For API details, see [DetachVpnGateway](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example detaches the specified virtual private gateway from the specified VPC.** ``` Dismount-EC2VpnGateway -VpnGatewayId vgw-1a2b3c4d -VpcId vpc-12345678 ``` + For API details, see [DetachVpnGateway](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DisableVgwRoutePropagation` with a CLI The following code examples show how to use `DisableVgwRoutePropagation`. ------ #### [ CLI ] **AWS CLI** **To disable route propagation** This example disables the specified virtual private gateway from propagating static routes to the specified route table. If the command succeeds, no output is returned. Command: ``` aws ec2 disable-vgw-route-propagation --route-table-id rtb-22574640 --gateway-id vgw-9a4cacf3 ``` + For API details, see [DisableVgwRoutePropagation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-vgw-route-propagation.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example disables the VGW from automatically propagating routes to the specified routing table.** ``` Disable-EC2VgwRoutePropagation -RouteTableId rtb-12345678 -GatewayId vgw-1a2b3c4d ``` + For API details, see [DisableVgwRoutePropagation](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example disables the VGW from automatically propagating routes to the specified routing table.** ``` Disable-EC2VgwRoutePropagation -RouteTableId rtb-12345678 -GatewayId vgw-1a2b3c4d ``` + For API details, see [DisableVgwRoutePropagation](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DisableVpcClassicLink` with a CLI The following code examples show how to use `DisableVpcClassicLink`. ------ #### [ CLI ] **AWS CLI** **To disable ClassicLink for a VPC** This example disables ClassicLink for vpc-8888888. Command: ``` aws ec2 disable-vpc-classic-link --vpc-id vpc-88888888 ``` Output: ``` { "Return": true } ``` + For API details, see [DisableVpcClassicLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-vpc-classic-link.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example disables EC2VpcClassicLink for the vpc-01e23c4a5d6db78e9. It returns either True or False** ``` Disable-EC2VpcClassicLink -VpcId vpc-01e23c4a5d6db78e9 ``` + For API details, see [DisableVpcClassicLink](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example disables EC2VpcClassicLink for the vpc-01e23c4a5d6db78e9. It returns either True or False** ``` Disable-EC2VpcClassicLink -VpcId vpc-01e23c4a5d6db78e9 ``` + For API details, see [DisableVpcClassicLink](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DisableVpcClassicLinkDnsSupport` with a CLI The following code examples show how to use `DisableVpcClassicLinkDnsSupport`. ------ #### [ CLI ] **AWS CLI** **To disable ClassicLink DNS support for a VPC** This example disables ClassicLink DNS support for `vpc-88888888`. Command: ``` aws ec2 disable-vpc-classic-link-dns-support --vpc-id vpc-88888888 ``` Output: ``` { "Return": true } ``` + For API details, see [DisableVpcClassicLinkDnsSupport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disable-vpc-classic-link-dns-support.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example disables ClassicLink DNS support for the vpc-0b12d3456a7e8910d** ``` Disable-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d ``` + For API details, see [DisableVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example disables ClassicLink DNS support for the vpc-0b12d3456a7e8910d** ``` Disable-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d ``` + For API details, see [DisableVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DisassociateAddress` with an AWS SDK or CLI The following code examples show how to use `DisassociateAddress`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Disassociate an Elastic IP address from an EC2 instance. /// /// The association Id. /// A Boolean value indicating the success of the action. public async Task DisassociateIp(string associationId) { try { var response = await _amazonEC2.DisassociateAddressAsync( new DisassociateAddressRequest { AssociationId = associationId }); return response.HttpStatusCode == HttpStatusCode.OK; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidAssociationID.NotFound") { _logger.LogError( $"AssociationId is invalid, unable to disassociate address. {ec2Exception.Message}"); } return false; } catch (Exception ex) { _logger.LogError( $"An error occurred while disassociating the Elastic IP.: {ex.Message}"); return false; } } ``` + For API details, see [DisassociateAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/DisassociateAddress) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_disassociate_address # # This function disassociates an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance. # # Parameters: # -a association_id - The association ID that represents the association of the Elastic IP address with an instance. # # And: # 0 - If successful. # 1 - If it fails. # ############################################################################### function ec2_disassociate_address() { local association_id response # Function to display usage information function usage() { echo "function ec2_disassociate_address" echo "Disassociates an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance." echo " -a association_id - The association ID that represents the association of the Elastic IP address with an instance." echo "" } # Parse the command-line arguments while getopts "a:h" option; do case "${option}" in a) association_id="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Validate the input parameters if [[ -z "$association_id" ]]; then errecho "ERROR: You must provide an association ID with the -a parameter." return 1 fi response=$(aws ec2 disassociate-address \ --association-id "$association_id") || { aws_cli_error_log ${?} errecho "ERROR: AWS reports disassociate-address operation failed." errecho "$response" return 1 } return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [DisassociateAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/DisassociateAddress) in *AWS CLI Command Reference*. ------ #### [ CLI ] **AWS CLI** **To disassociate an Elastic IP addresses in EC2-Classic** This example disassociates an Elastic IP address from an instance in EC2-Classic. If the command succeeds, no output is returned. Command: ``` aws ec2 disassociate-address --public-ip 198.51.100.0 ``` **To disassociate an Elastic IP address in EC2-VPC** This example disassociates an Elastic IP address from an instance in a VPC. If the command succeeds, no output is returned. Command: ``` aws ec2 disassociate-address --association-id eipassoc-2bebb745 ``` + For API details, see [DisassociateAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-address.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Disassociates an Elastic IP address from an instance asynchronously. * * @param associationId The ID of the association you want to disassociate. * @return a {@link CompletableFuture} representing the asynchronous operation of disassociating the address. The * {@link CompletableFuture} will complete with a {@link DisassociateAddressResponse} when the operation is * finished. * @throws RuntimeException if the disassociation of the address fails. */ public CompletableFuture disassociateAddressAsync(String associationId) { Ec2AsyncClient ec2 = getAsyncClient(); DisassociateAddressRequest addressRequest = DisassociateAddressRequest.builder() .associationId(associationId) .build(); // Disassociate the address asynchronously. CompletableFuture response = ec2.disassociateAddress(addressRequest); response.whenComplete((resp, ex) -> { if (ex != null) { throw new RuntimeException("Failed to disassociate address", ex); } }); return response; } ``` + For API details, see [DisassociateAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/DisassociateAddress) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { DisassociateAddressCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * Disassociate an Elastic IP address from an instance. * @param {{ associationId: string }} options */ export const main = async ({ associationId }) => { const client = new EC2Client({}); const command = new DisassociateAddressCommand({ // You can also use PublicIp, but that is for EC2 classic which is being retired. AssociationId: associationId, }); try { await client.send(command); console.log("Successfully disassociated address"); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidAssociationID.NotFound" ) { console.warn(`${caught.message}.`); } else { throw caught; } } }; ``` + For API details, see [DisassociateAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/DisassociateAddressCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun disassociateAddressSc(associationIdVal: String?) { val addressRequest = DisassociateAddressRequest { associationId = associationIdVal } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.disassociateAddress(addressRequest) println("You successfully disassociated the address!") } } ``` + For API details, see [DisassociateAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example disassociates the specified Elastic IP address from the specified instance in a VPC.** ``` Unregister-EC2Address -AssociationId eipassoc-12345678 ``` **Example 2: This example disassociates the specified Elastic IP address from the specified instance in EC2-Classic.** ``` Unregister-EC2Address -PublicIp 203.0.113.17 ``` + For API details, see [DisassociateAddress](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example disassociates the specified Elastic IP address from the specified instance in a VPC.** ``` Unregister-EC2Address -AssociationId eipassoc-12345678 ``` **Example 2: This example disassociates the specified Elastic IP address from the specified instance in EC2-Classic.** ``` Unregister-EC2Address -PublicIp 203.0.113.17 ``` + For API details, see [DisassociateAddress](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class ElasticIpWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Elastic IP address actions using the client interface.""" class ElasticIp: """Represents an Elastic IP and its associated instance.""" def __init__( self, allocation_id: str, public_ip: str, instance_id: Optional[str] = None ) -> None: """ Initializes the ElasticIp object. :param allocation_id: The allocation ID of the Elastic IP. :param public_ip: The public IP address of the Elastic IP. :param instance_id: The ID of the associated EC2 instance, if any. """ self.allocation_id = allocation_id self.public_ip = public_ip self.instance_id = instance_id def __init__(self, ec2_client: Any) -> None: """ Initializes the ElasticIpWrapper with an EC2 client. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. """ self.ec2_client = ec2_client self.elastic_ips: List[ElasticIpWrapper.ElasticIp] = [] @classmethod def from_client(cls) -> "ElasticIpWrapper": """ Creates an ElasticIpWrapper instance with a default EC2 client. :return: An instance of ElasticIpWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def disassociate(self, allocation_id: str) -> None: """ Removes an association between an Elastic IP address and an instance. When the association is removed, the instance is assigned a new public IP address. :param allocation_id: The allocation ID of the Elastic IP to disassociate. :raises ClientError: If the disassociation fails, such as when the association ID is not found. """ elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id) if elastic_ip is None or elastic_ip.instance_id is None: logger.info( f"No association found for Elastic IP with allocation ID {allocation_id}." ) return try: # Retrieve the association ID before disassociating response = self.ec2_client.describe_addresses(AllocationIds=[allocation_id]) association_id = response["Addresses"][0].get("AssociationId") if association_id: self.ec2_client.disassociate_address(AssociationId=association_id) elastic_ip.instance_id = None # Remove the instance association else: logger.info( f"No Association ID found for Elastic IP with allocation ID {allocation_id}." ) except ClientError as err: if err.response["Error"]["Code"] == "InvalidAssociationID.NotFound": logger.error( f"Failed to disassociate Elastic IP {allocation_id} " "because the specified association ID for the Elastic IP address was not found. " "Verify the association ID and ensure the Elastic IP is currently associated with a " "resource before attempting to disassociate it." ) raise ``` + For API details, see [DisassociateAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/DisassociateAddress) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn disassociate_ip_address(&self, association_id: &str) -> Result<(), EC2Error> { self.client .disassociate_address() .association_id(association_id) .send() .await?; Ok(()) } ``` + For API details, see [DisassociateAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.disassociate_address) in *AWS SDK for Rust API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Disassociate an Elastic IP. /// /// - Parameter associationId: The ID of the association to end. func disassociateAddress(associationId: String?) async { do { _ = try await ec2Client.disassociateAddress( input: DisassociateAddressInput( associationId: associationId ) ) } catch { print("*** Unable to disassociate the IP address: \(error.localizedDescription)") } } ``` + For API details, see [DisassociateAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/disassociateaddress(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `DisassociateRouteTable` with a CLI The following code examples show how to use `DisassociateRouteTable`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Working with VPC peering connections](example_ec2_GettingStarted_015_section.md) ------ #### [ CLI ] **AWS CLI** **To disassociate a route table** This example disassociates the specified route table from the specified subnet. If the command succeeds, no output is returned. Command: ``` aws ec2 disassociate-route-table --association-id rtbassoc-781d0d1a ``` + For API details, see [DisassociateRouteTable](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/disassociate-route-table.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example removes the specified association between a route table and a subnet.** ``` Unregister-EC2RouteTable -AssociationId rtbassoc-1a2b3c4d ``` + For API details, see [DisassociateRouteTable](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example removes the specified association between a route table and a subnet.** ``` Unregister-EC2RouteTable -AssociationId rtbassoc-1a2b3c4d ``` + For API details, see [DisassociateRouteTable](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `EnableVgwRoutePropagation` with a CLI The following code examples show how to use `EnableVgwRoutePropagation`. ------ #### [ CLI ] **AWS CLI** **To enable route propagation** This example enables the specified virtual private gateway to propagate static routes to the specified route table. If the command succeeds, no output is returned. Command: ``` aws ec2 enable-vgw-route-propagation --route-table-id rtb-22574640 --gateway-id vgw-9a4cacf3 ``` + For API details, see [EnableVgwRoutePropagation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-vgw-route-propagation.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example enables the specified VGW to propagate routes automatically to the specified routing table.** ``` Enable-EC2VgwRoutePropagation -RouteTableId rtb-12345678 -GatewayId vgw-1a2b3c4d ``` + For API details, see [EnableVgwRoutePropagation](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example enables the specified VGW to propagate routes automatically to the specified routing table.** ``` Enable-EC2VgwRoutePropagation -RouteTableId rtb-12345678 -GatewayId vgw-1a2b3c4d ``` + For API details, see [EnableVgwRoutePropagation](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `EnableVolumeIo` with a CLI The following code examples show how to use `EnableVolumeIo`. ------ #### [ CLI ] **AWS CLI** **To enable I/O for a volume** This example enables I/O on volume `vol-1234567890abcdef0`. Command: ``` aws ec2 enable-volume-io --volume-id vol-1234567890abcdef0 ``` Output: ``` { "Return": true } ``` + For API details, see [EnableVolumeIo](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-volume-io.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example enables I/O operations for the specified volume, if I/O operations were disabled.** ``` Enable-EC2VolumeIO -VolumeId vol-12345678 ``` + For API details, see [EnableVolumeIo](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example enables I/O operations for the specified volume, if I/O operations were disabled.** ``` Enable-EC2VolumeIO -VolumeId vol-12345678 ``` + For API details, see [EnableVolumeIo](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `EnableVpcClassicLink` with a CLI The following code examples show how to use `EnableVpcClassicLink`. ------ #### [ CLI ] **AWS CLI** **To enable a VPC for ClassicLink** This example enables vpc-8888888 for ClassicLink. Command: ``` aws ec2 enable-vpc-classic-link --vpc-id vpc-88888888 ``` Output: ``` { "Return": true } ``` + For API details, see [EnableVpcClassicLink](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-vpc-classic-link.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example enables VPC vpc-0123456b789b0d12f for ClassicLink** ``` Enable-EC2VpcClassicLink -VpcId vpc-0123456b789b0d12f ``` **Output:** ``` True ``` + For API details, see [EnableVpcClassicLink](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example enables VPC vpc-0123456b789b0d12f for ClassicLink** ``` Enable-EC2VpcClassicLink -VpcId vpc-0123456b789b0d12f ``` **Output:** ``` True ``` + For API details, see [EnableVpcClassicLink](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `EnableVpcClassicLinkDnsSupport` with a CLI The following code examples show how to use `EnableVpcClassicLinkDnsSupport`. ------ #### [ CLI ] **AWS CLI** **To enable ClassicLink DNS support for a VPC** This example enables ClassicLink DNS support for `vpc-88888888`. Command: ``` aws ec2 enable-vpc-classic-link-dns-support --vpc-id vpc-88888888 ``` Output: ``` { "Return": true } ``` + For API details, see [EnableVpcClassicLinkDnsSupport](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/enable-vpc-classic-link-dns-support.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example enables vpc-0b12d3456a7e8910d to support DNS hostname resolution for ClassicLink** ``` Enable-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d -Region eu-west-1 ``` + For API details, see [EnableVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example enables vpc-0b12d3456a7e8910d to support DNS hostname resolution for ClassicLink** ``` Enable-EC2VpcClassicLinkDnsSupport -VpcId vpc-0b12d3456a7e8910d -Region eu-west-1 ``` + For API details, see [EnableVpcClassicLinkDnsSupport](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `GetConsoleOutput` with a CLI The following code examples show how to use `GetConsoleOutput`. ------ #### [ CLI ] **AWS CLI** **Example 1: To get the console output** The following `get-console-output` example gets the console output for the specified Linux instance. ``` aws ec2 get-console-output \ --instance-id i-1234567890abcdef0 ``` Output: ``` { "InstanceId": "i-1234567890abcdef0", "Timestamp": "2013-07-25T21:23:53.000Z", "Output": "..." } ``` For more information, see [Instance console output](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-console.html#instance-console-console-output) in the *Amazon EC2 User Guide*. **Example 2: To get the latest console output** The following `get-console-output` example gets the latest console output for the specified Linux instance. ``` aws ec2 get-console-output \ --instance-id i-1234567890abcdef0 \ --latest \ --output text ``` Output: ``` i-1234567890abcdef0 [ 0.000000] Command line: root=LABEL=/ console=tty1 console=ttyS0 selinux=0 nvme_core.io_timeout=4294967295 [ 0.000000] x86/fpu: Supporting XSAVE feature 0x001: 'x87 floating point registers' [ 0.000000] x86/fpu: Supporting XSAVE feature 0x002: 'SSE registers' [ 0.000000] x86/fpu: Supporting XSAVE feature 0x004: 'AVX registers' ... Cloud-init v. 0.7.6 finished at Wed, 09 May 2018 19:01:13 +0000. Datasource DataSourceEc2. Up 21.50 seconds Amazon Linux AMI release 2018.03 Kernel 4.14.26-46.32.amzn1.x ``` For more information, see [Instance console output](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-console.html#instance-console-console-output) in the *Amazon EC2 User Guide*. + For API details, see [GetConsoleOutput](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-console-output.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example gets the console output for the specified Linux instance. The console output is encoded.** ``` Get-EC2ConsoleOutput -InstanceId i-0e19abcd47c123456 ``` **Output:** ``` InstanceId Output ---------- ------ i-0e194d3c47c123637 WyAgICAwLjAwMDAwMF0gQ29tbW...bGU9dHR5UzAgc2Vs ``` **Example 2: This example stores the encoded console output in a variable and then decodes it.** ``` $Output_encoded = (Get-EC2ConsoleOutput -InstanceId i-0e19abcd47c123456).Output [System.Text.Encoding]::UTF8.GetString([System.Convert]::FromBase64String($Output_encoded)) ``` + For API details, see [GetConsoleOutput](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example gets the console output for the specified Linux instance. The console output is encoded.** ``` Get-EC2ConsoleOutput -InstanceId i-0e19abcd47c123456 ``` **Output:** ``` InstanceId Output ---------- ------ i-0e194d3c47c123637 WyAgICAwLjAwMDAwMF0gQ29tbW...bGU9dHR5UzAgc2Vs ``` **Example 2: This example stores the encoded console output in a variable and then decodes it.** ``` $Output_encoded = (Get-EC2ConsoleOutput -InstanceId i-0e19abcd47c123456).Output [System.Text.Encoding]::UTF8.GetString([System.Convert]::FromBase64String($Output_encoded)) ``` + For API details, see [GetConsoleOutput](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `GetHostReservationPurchasePreview` with a CLI The following code examples show how to use `GetHostReservationPurchasePreview`. ------ #### [ CLI ] **AWS CLI** **To get a purchase preview for a Dedicated Host Reservation** This example provides a preview of the costs for a specified Dedicated Host Reservation for the specified Dedicated Host in your account. Command: ``` aws ec2 get-host-reservation-purchase-preview --offering-id hro-03f707bf363b6b324 --host-id-set h-013abcd2a00cbd123 ``` Output: ``` { "TotalHourlyPrice": "1.499", "Purchase": [ { "HourlyPrice": "1.499", "InstanceFamily": "m4", "PaymentOption": "NoUpfront", "HostIdSet": [ "h-013abcd2a00cbd123" ], "UpfrontPrice": "0.000", "Duration": 31536000 } ], "TotalUpfrontPrice": "0.000" } ``` + For API details, see [GetHostReservationPurchasePreview](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-host-reservation-purchase-preview.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example previews a reservation purchase with configurations that match those of your Dedicated Host h-01e23f4cd567890f1** ``` Get-EC2HostReservationPurchasePreview -OfferingId hro-0c1f23456789d0ab -HostIdSet h-01e23f4cd567890f1 ``` **Output:** ``` CurrencyCode Purchase TotalHourlyPrice TotalUpfrontPrice ------------ -------- ---------------- ----------------- {} 1.307 0.000 ``` + For API details, see [GetHostReservationPurchasePreview](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example previews a reservation purchase with configurations that match those of your Dedicated Host h-01e23f4cd567890f1** ``` Get-EC2HostReservationPurchasePreview -OfferingId hro-0c1f23456789d0ab -HostIdSet h-01e23f4cd567890f1 ``` **Output:** ``` CurrencyCode Purchase TotalHourlyPrice TotalUpfrontPrice ------------ -------- ---------------- ----------------- {} 1.307 0.000 ``` + For API details, see [GetHostReservationPurchasePreview](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `GetPasswordData` with an AWS SDK or CLI The following code examples show how to use `GetPasswordData`. ------ #### [ CLI ] **AWS CLI** **To get the encrypted password** This example gets the encrypted password. Command: ``` aws ec2 get-password-data --instance-id i-1234567890abcdef0 ``` Output: ``` { "InstanceId": "i-1234567890abcdef0", "Timestamp": "2013-08-07T22:18:38.000Z", "PasswordData": "gSlJFq+VpcZXqy+iktxMF6NyxQ4qCrT4+gaOuNOenX1MmgXPTj7XEXAMPLE UQ+YeFfb+L1U4C4AKv652Ux1iRB3CPTYP7WmU3TUnhsuBd+p6LVk7T2lKUml6OXbk6WPW1VYYm/TRPB1 e1DQ7PY4an/DgZT4mwcpRFigzhniQgDDeO1InvSDcwoUTwNs0Y1S8ouri2W4n5GNlriM3Q0AnNVelVz/ 53TkDtxbNoU606M1gK9zUWSxqEgwvbV2j8c5rP0WCuaMWSFl4ziDu4bd7q+4RSyi8NUsVWnKZ4aEZffu DPGzKrF5yLlf3etP2L4ZR6CvG7K1hx7VKOQVN32Dajw==" } ``` **To get the decrypted password** This example gets the decrypted password. Command: ``` aws ec2 get-password-data --instance-id i-1234567890abcdef0 --priv-launch-key C:\Keys\MyKeyPair.pem ``` Output: ``` { "InstanceId": "i-1234567890abcdef0", "Timestamp": "2013-08-30T23:18:05.000Z", "PasswordData": "&ViJ652e*u" } ``` + For API details, see [GetPasswordData](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/get-password-data.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` import software.amazon.awssdk.regions.Region; import software.amazon.awssdk.services.ec2.Ec2AsyncClient; import software.amazon.awssdk.services.ec2.model.*; import java.util.concurrent.CompletableFuture; /** * Before running this Java V2 code example, set up your development * environment, including your credentials. * * For more information, see the following documentation topic: * * https://docs.aws.amazon.com/sdk-for-java/latest/developer-guide/get-started.html */ public class GetPasswordData { public static void main(String[] args) { final String usage = """ Usage: Where: instanceId - An instance id value that you can obtain from the AWS Management Console.\s """; if (args.length != 1) { System.out.println(usage); System.exit(1); } String instanceId = args[0]; Ec2AsyncClient ec2AsyncClient = Ec2AsyncClient.builder() .region(Region.US_EAST_1) .build(); try { CompletableFuture future = getPasswordDataAsync(ec2AsyncClient, instanceId); future.join(); } catch (RuntimeException rte) { System.err.println("An exception occurred: " + (rte.getCause() != null ? rte.getCause().getMessage() : rte.getMessage())); } } /** * Fetches the password data for the specified EC2 instance asynchronously. * * @param ec2AsyncClient the EC2 asynchronous client to use for the request * @param instanceId instanceId the ID of the EC2 instance for which you want to fetch the password data * @return a {@link CompletableFuture} that completes when the password data has been fetched * @throws RuntimeException if there was a failure in fetching the password data */ public static CompletableFuture getPasswordDataAsync(Ec2AsyncClient ec2AsyncClient, String instanceId) { GetPasswordDataRequest getPasswordDataRequest = GetPasswordDataRequest.builder() .instanceId(instanceId) .build(); CompletableFuture response = ec2AsyncClient.getPasswordData(getPasswordDataRequest); response.whenComplete((getPasswordDataResponse, ex) -> { if (ex != null) { throw new RuntimeException("Failed to get password data for instance: " + instanceId, ex); } else if (getPasswordDataResponse == null || getPasswordDataResponse.passwordData().isEmpty()) { throw new RuntimeException("No password data found for instance: " + instanceId); } else { String encryptedPasswordData = getPasswordDataResponse.passwordData(); System.out.println("Encrypted Password Data: " + encryptedPasswordData); } }); return response.thenApply(resp -> null); } } ``` + For API details, see [GetPasswordData](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/GetPasswordData) in *AWS SDK for Java 2.x API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example decrypts the password that Amazon EC2 assigned to the Administrator account for the specified Windows instance. As a pem file was specified, the setting of the -Decrypt switch is automatically assumed.** ``` Get-EC2PasswordData -InstanceId i-12345678 -PemFile C:\path\my-key-pair.pem ``` **Output:** ``` mYZ(PA9?C)Q ``` **Example 2: (Windows PowerShell only) Inspects the instance to determine the name of the keypair used to launch the instance and then attempts to find the corresponding keypair data in the configuration store of the AWS Toolkit for Visual Studio. If the keypair data is found the password is decrypted.** ``` Get-EC2PasswordData -InstanceId i-12345678 -Decrypt ``` **Output:** ``` mYZ(PA9?C)Q ``` **Example 3: Returns the encrypted password data for the instance.** ``` Get-EC2PasswordData -InstanceId i-12345678 ``` **Output:** ``` iVz3BAK/WAXV.....dqt8WeMA== ``` + For API details, see [GetPasswordData](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example decrypts the password that Amazon EC2 assigned to the Administrator account for the specified Windows instance. As a pem file was specified, the setting of the -Decrypt switch is automatically assumed.** ``` Get-EC2PasswordData -InstanceId i-12345678 -PemFile C:\path\my-key-pair.pem ``` **Output:** ``` mYZ(PA9?C)Q ``` **Example 2: (Windows PowerShell only) Inspects the instance to determine the name of the keypair used to launch the instance and then attempts to find the corresponding keypair data in the configuration store of the AWS Toolkit for Visual Studio. If the keypair data is found the password is decrypted.** ``` Get-EC2PasswordData -InstanceId i-12345678 -Decrypt ``` **Output:** ``` mYZ(PA9?C)Q ``` **Example 3: Returns the encrypted password data for the instance.** ``` Get-EC2PasswordData -InstanceId i-12345678 ``` **Output:** ``` iVz3BAK/WAXV.....dqt8WeMA== ``` + For API details, see [GetPasswordData](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ImportImage` with a CLI The following code examples show how to use `ImportImage`. ------ #### [ CLI ] **AWS CLI** **To import a VM image file as an AMI** The following `import-image` example imports the specified OVA. ``` aws ec2 import-image \ --disk-containers Format=ova,UserBucket="{S3Bucket=my-import-bucket,S3Key=vms/my-server-vm.ova}" ``` Output: ``` { "ImportTaskId": "import-ami-1234567890abcdef0", "Progress": "2", "SnapshotDetails": [ { "DiskImageSize": 0.0, "Format": "ova", "UserBucket": { "S3Bucket": "my-import-bucket", "S3Key": "vms/my-server-vm.ova" } } ], "Status": "active", "StatusMessage": "pending" } ``` + For API details, see [ImportImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/import-image.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example imports a single-disk virtual machine image from the specified Amazon S3 bucket to Amazon EC2 with an idempotency token. The example requires that a VM Import Service Role with the default name 'vmimport' exists, with a policy allowing Amazon EC2 access to the specified bucket, as explained in the VM Import Prequisites topic. To use a custom role, specify the role name using the `-RoleName` parameter.** ``` $container = New-Object Amazon.EC2.Model.ImageDiskContainer $container.Format="VMDK" $container.UserBucket = New-Object Amazon.EC2.Model.UserBucket $container.UserBucket.S3Bucket = "amzn-s3-demo-bucket" $container.UserBucket.S3Key = "Win_2008_Server_Standard_SP2_64-bit-disk1.vmdk" $parms = @{ "ClientToken"="idempotencyToken" "Description"="Windows 2008 Standard Image Import" "Platform"="Windows" "LicenseType"="AWS" } Import-EC2Image -DiskContainer $container @parms ``` **Output:** ``` Architecture : Description : Windows 2008 Standard Image Hypervisor : ImageId : ImportTaskId : import-ami-abcdefgh LicenseType : AWS Platform : Windows Progress : 2 SnapshotDetails : {} Status : active StatusMessage : pending ``` + For API details, see [ImportImage](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example imports a single-disk virtual machine image from the specified Amazon S3 bucket to Amazon EC2 with an idempotency token. The example requires that a VM Import Service Role with the default name 'vmimport' exists, with a policy allowing Amazon EC2 access to the specified bucket, as explained in the VM Import Prequisites topic. To use a custom role, specify the role name using the `-RoleName` parameter.** ``` $container = New-Object Amazon.EC2.Model.ImageDiskContainer $container.Format="VMDK" $container.UserBucket = New-Object Amazon.EC2.Model.UserBucket $container.UserBucket.S3Bucket = "amzn-s3-demo-bucket" $container.UserBucket.S3Key = "Win_2008_Server_Standard_SP2_64-bit-disk1.vmdk" $parms = @{ "ClientToken"="idempotencyToken" "Description"="Windows 2008 Standard Image Import" "Platform"="Windows" "LicenseType"="AWS" } Import-EC2Image -DiskContainer $container @parms ``` **Output:** ``` Architecture : Description : Windows 2008 Standard Image Hypervisor : ImageId : ImportTaskId : import-ami-abcdefgh LicenseType : AWS Platform : Windows Progress : 2 SnapshotDetails : {} Status : active StatusMessage : pending ``` + For API details, see [ImportImage](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ImportKeyPair` with a CLI The following code examples show how to use `ImportKeyPair`. ------ #### [ CLI ] **AWS CLI** **To import a public key** First, generate a key pair with the tool of your choice. For example, use this ssh-keygen command: Command: ``` ssh-keygen -t rsa -C "my-key" -f ~/.ssh/my-key ``` Output: ``` Generating public/private rsa key pair. Enter passphrase (empty for no passphrase): Enter same passphrase again: Your identification has been saved in /home/ec2-user/.ssh/my-key. Your public key has been saved in /home/ec2-user/.ssh/my-key.pub. ... ``` This example command imports the specified public key. Command: ``` aws ec2 import-key-pair --key-name "my-key" --public-key-material fileb://~/.ssh/my-key.pub ``` Output: ``` { "KeyName": "my-key", "KeyFingerprint": "1f:51:ae:28:bf:89:e9:d8:1f:25:5d:37:2d:7d:b8:ca" } ``` + For API details, see [ImportKeyPair](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/import-key-pair.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example imports a public key to EC2. The first line stores the contents of the public key file (\$1.pub) in the variable `$publickey`. Next, the example converts the UTF8 format of the public key file to a Base64-encoded string, and stores the converted string in the variable `$pkbase64`. In the last line, the converted public key is imported to EC2. The cmdlet returns the key fingerprint and name as results.** ``` $publickey=[Io.File]::ReadAllText("C:\Users\TestUser\.ssh\id_rsa.pub") $pkbase64 = [System.Convert]::ToBase64String([System.Text.Encoding]::UTF8.GetBytes($publickey)) Import-EC2KeyPair -KeyName Example-user-key -PublicKey $pkbase64 ``` **Output:** ``` KeyFingerprint KeyName -------------- ------- do:d0:15:8f:79:97:12:be:00:fd:df:31:z3:b1:42:z1 Example-user-key ``` + For API details, see [ImportKeyPair](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example imports a public key to EC2. The first line stores the contents of the public key file (\$1.pub) in the variable `$publickey`. Next, the example converts the UTF8 format of the public key file to a Base64-encoded string, and stores the converted string in the variable `$pkbase64`. In the last line, the converted public key is imported to EC2. The cmdlet returns the key fingerprint and name as results.** ``` $publickey=[Io.File]::ReadAllText("C:\Users\TestUser\.ssh\id_rsa.pub") $pkbase64 = [System.Convert]::ToBase64String([System.Text.Encoding]::UTF8.GetBytes($publickey)) Import-EC2KeyPair -KeyName Example-user-key -PublicKey $pkbase64 ``` **Output:** ``` KeyFingerprint KeyName -------------- ------- do:d0:15:8f:79:97:12:be:00:fd:df:31:z3:b1:42:z1 Example-user-key ``` + For API details, see [ImportKeyPair](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ImportSnapshot` with a CLI The following code examples show how to use `ImportSnapshot`. ------ #### [ CLI ] **AWS CLI** **To import a snapshot** The following `import-snapshot` example imports the specified disk as a snapshot. ``` aws ec2 import-snapshot \ --description "My server VMDK" \ --disk-container Format=VMDK,UserBucket={'S3Bucket=my-import-bucket,S3Key=vms/my-server-vm.vmdk'} ``` Output: ``` { "Description": "My server VMDK", "ImportTaskId": "import-snap-1234567890abcdef0", "SnapshotTaskDetail": { "Description": "My server VMDK", "DiskImageSize": "0.0", "Format": "VMDK", "Progress": "3", "Status": "active", "StatusMessage": "pending" "UserBucket": { "S3Bucket": "my-import-bucket", "S3Key": "vms/my-server-vm.vmdk" } } } ``` + For API details, see [ImportSnapshot](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/import-snapshot.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example imports a VM disk image of format 'VMDK' to an Amazon EBS snapshot. The example requires a VM Import Service Role with the default name 'vmimport', with a policy allowing Amazon EC2 access to the specified bucket, as explained in the `VM Import Prequisites` topic in http://docs.aws.amazon.com/AWSEC2/latest/WindowsGuide/VMImportPrerequisites.html. To use a custom role, specify the role name using the `-RoleName` parameter.** ``` $parms = @{ "ClientToken"="idempotencyToken" "Description"="Disk Image Import" "DiskContainer_Description" = "Data disk" "DiskContainer_Format" = "VMDK" "DiskContainer_S3Bucket" = "amzn-s3-demo-bucket" "DiskContainer_S3Key" = "datadiskimage.vmdk" } Import-EC2Snapshot @parms ``` **Output:** ``` Description ImportTaskId SnapshotTaskDetail ----------------- -------------------- ------------------ Disk Image Import import-snap-abcdefgh Amazon.EC2.Model.SnapshotTaskDetail ``` + For API details, see [ImportSnapshot](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example imports a VM disk image of format 'VMDK' to an Amazon EBS snapshot. The example requires a VM Import Service Role with the default name 'vmimport', with a policy allowing Amazon EC2 access to the specified bucket, as explained in the `VM Import Prequisites` topic in http://docs.aws.amazon.com/AWSEC2/latest/WindowsGuide/VMImportPrerequisites.html. To use a custom role, specify the role name using the `-RoleName` parameter.** ``` $parms = @{ "ClientToken"="idempotencyToken" "Description"="Disk Image Import" "DiskContainer_Description" = "Data disk" "DiskContainer_Format" = "VMDK" "DiskContainer_S3Bucket" = "amzn-s3-demo-bucket" "DiskContainer_S3Key" = "datadiskimage.vmdk" } Import-EC2Snapshot @parms ``` **Output:** ``` Description ImportTaskId SnapshotTaskDetail ----------------- -------------------- ------------------ Disk Image Import import-snap-abcdefgh Amazon.EC2.Model.SnapshotTaskDetail ``` + For API details, see [ImportSnapshot](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifyCapacityReservation` with a CLI The following code examples show how to use `ModifyCapacityReservation`. ------ #### [ CLI ] **AWS CLI** **Example 1: To change the number of instances reserved by an existing capacity reservation** The following `modify-capacity-reservation` example changes the number of instances for which the capacity reservation reserves capacity. ``` aws ec2 modify-capacity-reservation \ --capacity-reservation-id cr-1234abcd56EXAMPLE \ --instance-count 5 ``` Output: ``` { "Return": true } ``` For more information, see [Modify a Capacity Reservation](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-modify.html) in the *Amazon EC2 User Guide*. **Example 2: To change the end date and time for an existing capacity reservation** The following `modify-capacity-reservation` example modifies an existing capacity reservation to end at the specified date and time. ``` aws ec2 modify-capacity-reservation \ --capacity-reservation-id cr-1234abcd56EXAMPLE \ --end-date-type limited \ --end-date 2019-08-31T23:59:59Z ``` For more information, see [Modify a Capacity Reservation](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/capacity-reservations-modify.html) in the *Amazon EC2 User Guide*. + For API details, see [ModifyCapacityReservation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-capacity-reservation.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example modifies the CapacityReservationId cr-0c1f2345db6f7cdba by changing the instane count to 1** ``` Edit-EC2CapacityReservation -CapacityReservationId cr-0c1f2345db6f7cdba -InstanceCount 1 ``` **Output:** ``` True ``` + For API details, see [ModifyCapacityReservation](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example modifies the CapacityReservationId cr-0c1f2345db6f7cdba by changing the instane count to 1** ``` Edit-EC2CapacityReservation -CapacityReservationId cr-0c1f2345db6f7cdba -InstanceCount 1 ``` **Output:** ``` True ``` + For API details, see [ModifyCapacityReservation](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifyHosts` with a CLI The following code examples show how to use `ModifyHosts`. ------ #### [ CLI ] **AWS CLI** **Example 1: To enable auto-placement for a Dedicated Host** The following `modify-hosts` example enables auto-placement for a Dedicated Host so that it accepts any untargeted instance launches that match its instance type configuration. ``` aws ec2 modify-hosts \ --host-id h-06c2f189b4EXAMPLE \ --auto-placement on ``` Output: ``` { "Successful": [ "h-06c2f189b4EXAMPLE" ], "Unsuccessful": [] } ``` For more information, see [Modify the auto-placement setting for a Dedicated Host](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/modify-host-auto-placement.html) in the *Amazon EC2 User Guide*. **Example 2: To enable host recovery for a Dedicated Host** The following `modify-hosts` example enables host recovery for the specified Dedicated Host. ``` aws ec2 modify-hosts \ --host-id h-06c2f189b4EXAMPLE \ --host-recovery on ``` Output: ``` { "Successful": [ "h-06c2f189b4EXAMPLE" ], "Unsuccessful": [] } ``` For more information, see [Modify the auto-placement setting for a Dedicated Host](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/modify-host-auto-placement.html) in the *Amazon EC2 User Guide*. + For API details, see [ModifyHosts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-hosts.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example modifies the AutoPlacement settings to off for the dedicated host h-01e23f4cd567890f3** ``` Edit-EC2Host -HostId h-03e09f8cd681609f3 -AutoPlacement off ``` **Output:** ``` Successful Unsuccessful ---------- ------------ {h-01e23f4cd567890f3} {} ``` + For API details, see [ModifyHosts](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example modifies the AutoPlacement settings to off for the dedicated host h-01e23f4cd567890f3** ``` Edit-EC2Host -HostId h-03e09f8cd681609f3 -AutoPlacement off ``` **Output:** ``` Successful Unsuccessful ---------- ------------ {h-01e23f4cd567890f3} {} ``` + For API details, see [ModifyHosts](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifyIdFormat` with a CLI The following code examples show how to use `ModifyIdFormat`. ------ #### [ CLI ] **AWS CLI** **To enable the longer ID format for a resource** The following `modify-id-format` example enables the longer ID format for the `instance` resource type. ``` aws ec2 modify-id-format \ --resource instance \ --use-long-ids ``` **To disable the longer ID format for a resource** The following `modify-id-format` example disables the longer ID format for the `instance` resource type. ``` aws ec2 modify-id-format \ --resource instance \ --no-use-long-ids ``` The following `modify-id-format` example enables the longer ID format for all supported resource types that are within their opt-in period. ``` aws ec2 modify-id-format \ --resource all-current \ --use-long-ids ``` + For API details, see [ModifyIdFormat](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-id-format.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example enables the longer ID format for the specified resource type.** ``` Edit-EC2IdFormat -Resource instance -UseLongId $true ``` **Example 2: This example disables the longer ID format for the specified resource type.** ``` Edit-EC2IdFormat -Resource instance -UseLongId $false ``` + For API details, see [ModifyIdFormat](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example enables the longer ID format for the specified resource type.** ``` Edit-EC2IdFormat -Resource instance -UseLongId $true ``` **Example 2: This example disables the longer ID format for the specified resource type.** ``` Edit-EC2IdFormat -Resource instance -UseLongId $false ``` + For API details, see [ModifyIdFormat](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifyImageAttribute` with a CLI The following code examples show how to use `ModifyImageAttribute`. ------ #### [ CLI ] **AWS CLI** **Example 1: To make an AMI public** The following `modify-instance-attribute` example makes the specified AMI public. ``` aws ec2 modify-image-attribute \ --image-id ami-5731123e \ --launch-permission "Add=[{Group=all}]" ``` This command produces no output. **Example 2: To make an AMI private** The following `modify-instance-attribute` example makes the specified AMI private. ``` aws ec2 modify-image-attribute \ --image-id ami-5731123e \ --launch-permission "Remove=[{Group=all}]" ``` This command produces no output. **Example 3: To grant launch permission to an AWS account** The following `modify-instance-attribute` example grants launch permissions to the specified AWS account. ``` aws ec2 modify-image-attribute \ --image-id ami-5731123e \ --launch-permission "Add=[{UserId=123456789012}]" ``` This command produces no output. **Example 4: To remove launch permission from an AWS account** The following `modify-instance-attribute` example removes launch permissions from the specified AWS account. ``` aws ec2 modify-image-attribute \ --image-id ami-5731123e \ --launch-permission "Remove=[{UserId=123456789012}]" ``` + For API details, see [ModifyImageAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-image-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example updates the description for the specified AMI.** ``` Edit-EC2ImageAttribute -ImageId ami-12345678 -Description "New description" ``` **Example 2: This example makes the AMI public (for example, so any AWS account can use it).** ``` Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType add -UserGroup all ``` **Example 3: This example makes the AMI private (for example, so that only you as the owner can use it).** ``` Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType remove -UserGroup all ``` **Example 4: This example grants launch permission to the specified AWS account.** ``` Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType add -UserId 111122223333 ``` **Example 5: This example removes launch permission from the specified AWS account.** ``` Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType remove -UserId 111122223333 ``` + For API details, see [ModifyImageAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example updates the description for the specified AMI.** ``` Edit-EC2ImageAttribute -ImageId ami-12345678 -Description "New description" ``` **Example 2: This example makes the AMI public (for example, so any AWS account can use it).** ``` Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType add -UserGroup all ``` **Example 3: This example makes the AMI private (for example, so that only you as the owner can use it).** ``` Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType remove -UserGroup all ``` **Example 4: This example grants launch permission to the specified AWS account.** ``` Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType add -UserId 111122223333 ``` **Example 5: This example removes launch permission from the specified AWS account.** ``` Edit-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission -OperationType remove -UserId 111122223333 ``` + For API details, see [ModifyImageAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifyInstanceAttribute` with a CLI The following code examples show how to use `ModifyInstanceAttribute`. ------ #### [ CLI ] **AWS CLI** **Example 1: To modify the instance type** The following `modify-instance-attribute` example modifies the instance type of the specified instance. The instance must be in the `stopped` state. ``` aws ec2 modify-instance-attribute \ --instance-id i-1234567890abcdef0 \ --instance-type "{\"Value\": \"m1.small\"}" ``` This command produces no output. **Example 2: To enable enhanced networking on an instance** The following `modify-instance-attribute` example enables enhanced networking for the specified instance. The instance must be in the `stopped` state. ``` aws ec2 modify-instance-attribute \ --instance-id i-1234567890abcdef0 \ --sriov-net-support simple ``` This command produces no output. **Example 3: To modify the sourceDestCheck attribute** The following `modify-instance-attribute` example sets the `sourceDestCheck` attribute of the specified instance to `true`. The instance must be in a VPC. ``` aws ec2 modify-instance-attribute --instance-id i-1234567890abcdef0 --source-dest-check "{\"Value\": true}" ``` This command produces no output. **Example 4: To modify the deleteOnTermination attribute of the root volume** The following `modify-instance-attribute` example sets the `deleteOnTermination` attribute for the root volume of the specified Amazon EBS-backed instance to `false`. By default, this attribute is `true` for the root volume. Command: ``` aws ec2 modify-instance-attribute \ --instance-id i-1234567890abcdef0 \ --block-device-mappings "[{\"DeviceName\": \"/dev/sda1\",\"Ebs\":{\"DeleteOnTermination\":false}}]" ``` This command produces no output. **Example 5: To modify the user data attached to an instance** The following `modify-instance-attribute` example adds the contents of the file `UserData.txt` as the UserData for the specified instance. Contents of original file `UserData.txt`: ``` #!/bin/bash yum update -y service httpd start chkconfig httpd on ``` The contents of the file must be base64 encoded. The first command converts the text file to base64 and saves it as a new file. Linux/macOS version of the command: ``` base64 UserData.txt > UserData.base64.txt ``` This command produces no output. Windows version of the command: ``` certutil -encode UserData.txt tmp.b64 && findstr /v /c:- tmp.b64 > UserData.base64.txt ``` Output: ``` Input Length = 67 Output Length = 152 CertUtil: -encode command completed successfully. ``` Now you can reference that file in the CLI command that follows: ``` aws ec2 modify-instance-attribute \ --instance-id=i-09b5a14dbca622e76 \ --attribute userData --value file://UserData.base64.txt ``` This command produces no output. For more information, see [User Data and the AWS CLI](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/user-data.html#user-data-api-cli) in the *EC2 User Guide*. + For API details, see [ModifyInstanceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-instance-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example modifies the instance type of the specified instance.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -InstanceType m3.medium ``` **Example 2: This example enables enhanced networking for the specified instance, by specifying "simple" as the value of the single root I/O virtualization (SR-IOV) network support parameter, -SriovNetSupport..** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -SriovNetSupport "simple" ``` **Example 3: This example modifies the security groups for the specified instance. The instance must be in a VPC. You must specify the ID of each security group, not the name.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -Group @( "sg-12345678", "sg-45678901" ) ``` **Example 4: This example enables EBS I/O optimization for the specified instance. This feature isn't available with all instance types. Additional usage charges apply when using an EBS-optimized instance.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -EbsOptimized $true ``` **Example 5: This example enables source/destination checking for the specified instance. For a NAT instance to perform NAT, the value must be 'false'.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -SourceDestCheck $true ``` **Example 6: This example disables termination for the specified instance.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -DisableApiTermination $true ``` **Example 7: This example changes the specified instance so that it terminates when shutdown is initiated from the instance.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -InstanceInitiatedShutdownBehavior terminate ``` + For API details, see [ModifyInstanceAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example modifies the instance type of the specified instance.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -InstanceType m3.medium ``` **Example 2: This example enables enhanced networking for the specified instance, by specifying "simple" as the value of the single root I/O virtualization (SR-IOV) network support parameter, -SriovNetSupport..** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -SriovNetSupport "simple" ``` **Example 3: This example modifies the security groups for the specified instance. The instance must be in a VPC. You must specify the ID of each security group, not the name.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -Group @( "sg-12345678", "sg-45678901" ) ``` **Example 4: This example enables EBS I/O optimization for the specified instance. This feature isn't available with all instance types. Additional usage charges apply when using an EBS-optimized instance.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -EbsOptimized $true ``` **Example 5: This example enables source/destination checking for the specified instance. For a NAT instance to perform NAT, the value must be 'false'.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -SourceDestCheck $true ``` **Example 6: This example disables termination for the specified instance.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -DisableApiTermination $true ``` **Example 7: This example changes the specified instance so that it terminates when shutdown is initiated from the instance.** ``` Edit-EC2InstanceAttribute -InstanceId i-12345678 -InstanceInitiatedShutdownBehavior terminate ``` + For API details, see [ModifyInstanceAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifyInstanceCreditSpecification` with a CLI The following code examples show how to use `ModifyInstanceCreditSpecification`. ------ #### [ CLI ] **AWS CLI** **To modify the credit option for CPU usage of an instance** This example modifies the credit option for CPU usage of the specified instance in the specified region to "unlimited". Valid credit options are "standard" and "unlimited". Command: ``` aws ec2 modify-instance-credit-specification --instance-credit-specification "InstanceId=i-1234567890abcdef0,CpuCredits=unlimited" ``` Output: ``` { "SuccessfulInstanceCreditSpecifications": [ { "InstanceId": "i-1234567890abcdef0" } ], "UnsuccessfulInstanceCreditSpecifications": [] } ``` + For API details, see [ModifyInstanceCreditSpecification](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-instance-credit-specification.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This enables T2 unlimited credits for instance i-01234567890abcdef.** ``` $Credit = New-Object -TypeName Amazon.EC2.Model.InstanceCreditSpecificationRequest $Credit.InstanceId = "i-01234567890abcdef" $Credit.CpuCredits = "unlimited" Edit-EC2InstanceCreditSpecification -InstanceCreditSpecification $Credit ``` + For API details, see [ModifyInstanceCreditSpecification](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This enables T2 unlimited credits for instance i-01234567890abcdef.** ``` $Credit = New-Object -TypeName Amazon.EC2.Model.InstanceCreditSpecificationRequest $Credit.InstanceId = "i-01234567890abcdef" $Credit.CpuCredits = "unlimited" Edit-EC2InstanceCreditSpecification -InstanceCreditSpecification $Credit ``` + For API details, see [ModifyInstanceCreditSpecification](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifyNetworkInterfaceAttribute` with a CLI The following code examples show how to use `ModifyNetworkInterfaceAttribute`. ------ #### [ CLI ] **AWS CLI** **To modify the attachment attribute of a network interface** This example command modifies the `attachment` attribute of the specified network interface. Command: ``` aws ec2 modify-network-interface-attribute --network-interface-id eni-686ea200 --attachment AttachmentId=eni-attach-43348162,DeleteOnTermination=false ``` **To modify the description attribute of a network interface** This example command modifies the `description` attribute of the specified network interface. Command: ``` aws ec2 modify-network-interface-attribute --network-interface-id eni-686ea200 --description "My description" ``` **To modify the groupSet attribute of a network interface** This example command modifies the `groupSet` attribute of the specified network interface. Command: ``` aws ec2 modify-network-interface-attribute --network-interface-id eni-686ea200 --groups sg-903004f8 sg-1a2b3c4d ``` **To modify the sourceDestCheck attribute of a network interface** This example command modifies the `sourceDestCheck` attribute of the specified network interface. Command: ``` aws ec2 modify-network-interface-attribute --network-interface-id eni-686ea200 --no-source-dest-check ``` + For API details, see [ModifyNetworkInterfaceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-network-interface-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example modifies the specified network interface so that the specified attachment is deleted on termination.** ``` Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Attachment_AttachmentId eni-attach-1a2b3c4d -Attachment_DeleteOnTermination $true ``` **Example 2: This example modifies the description of the specified network interface.** ``` Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Description "my description" ``` **Example 3: This example modifies the security group for the specified network interface.** ``` Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Groups sg-1a2b3c4d ``` **Example 4: This example disables source/destination checking for the specified network interface.** ``` Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -SourceDestCheck $false ``` + For API details, see [ModifyNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example modifies the specified network interface so that the specified attachment is deleted on termination.** ``` Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Attachment_AttachmentId eni-attach-1a2b3c4d -Attachment_DeleteOnTermination $true ``` **Example 2: This example modifies the description of the specified network interface.** ``` Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Description "my description" ``` **Example 3: This example modifies the security group for the specified network interface.** ``` Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -Groups sg-1a2b3c4d ``` **Example 4: This example disables source/destination checking for the specified network interface.** ``` Edit-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -SourceDestCheck $false ``` + For API details, see [ModifyNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifyReservedInstances` with a CLI The following code examples show how to use `ModifyReservedInstances`. ------ #### [ CLI ] **AWS CLI** **To modify Reserved Instances** This example command moves a Reserved Instance to another Availability Zone in the same region. Command: ``` aws ec2 modify-reserved-instances --reserved-instances-ids b847fa93-e282-4f55-b59a-1342f5bd7c02 --target-configurations AvailabilityZone=us-west-1c,Platform=EC2-Classic,InstanceCount=10 ``` Output: ``` { "ReservedInstancesModificationId": "rimod-d3ed4335-b1d3-4de6-ab31-0f13aaf46687" } ``` **To modify the network platform of Reserved Instances** This example command converts EC2-Classic Reserved Instances to EC2-VPC. Command: ``` aws ec2 modify-reserved-instances --reserved-instances-ids f127bd27-edb7-44c9-a0eb-0d7e09259af0 --target-configurations AvailabilityZone=us-west-1c,Platform=EC2-VPC,InstanceCount=5 ``` Output: ``` { "ReservedInstancesModificationId": "rimod-82fa9020-668f-4fb6-945d-61537009d291" } ``` For more information, see Modifying Your Reserved Instances in the *Amazon EC2 User Guide*. **To modify the instance size of Reserved Instances** This example command modifies a Reserved Instance that has 10 m1.small Linux/UNIX instances in us-west-1c so that 8 m1.small instances become 2 m1.large instances, and the remaining 2 m1.small become 1 m1.medium instance in the same Availability Zone. Command: ``` aws ec2 modify-reserved-instances --reserved-instances-ids 1ba8e2e3-3556-4264-949e-63ee671405a9 --target-configurations AvailabilityZone=us-west-1c,Platform=EC2-Classic,InstanceCount=2,InstanceType=m1.large AvailabilityZone=us-west-1c,Platform=EC2-Classic,InstanceCount=1,InstanceType=m1.medium ``` Output: ``` { "ReservedInstancesModificationId": "rimod-acc5f240-080d-4717-b3e3-1c6b11fa00b6" } ``` For more information, see Modifying the Instance Size of Your Reservations in the *Amazon EC2 User Guide*. + For API details, see [ModifyReservedInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-reserved-instances.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example modifies the Availability Zone, instance count, and platform for the specified Reserved instances.** ``` $config = New-Object Amazon.EC2.Model.ReservedInstancesConfiguration $config.AvailabilityZone = "us-west-2a" $config.InstanceCount = 1 $config.Platform = "EC2-VPC" Edit-EC2ReservedInstance ` -ReservedInstancesId @("FE32132D-70D5-4795-B400-AE435EXAMPLE", "0CC556F3-7AB8-4C00-B0E5-98666EXAMPLE") ` -TargetConfiguration $config ``` + For API details, see [ModifyReservedInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example modifies the Availability Zone, instance count, and platform for the specified Reserved instances.** ``` $config = New-Object Amazon.EC2.Model.ReservedInstancesConfiguration $config.AvailabilityZone = "us-west-2a" $config.InstanceCount = 1 $config.Platform = "EC2-VPC" Edit-EC2ReservedInstance ` -ReservedInstancesId @("FE32132D-70D5-4795-B400-AE435EXAMPLE", "0CC556F3-7AB8-4C00-B0E5-98666EXAMPLE") ` -TargetConfiguration $config ``` + For API details, see [ModifyReservedInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifySnapshotAttribute` with a CLI The following code examples show how to use `ModifySnapshotAttribute`. ------ #### [ CLI ] **AWS CLI** **Example 1: To modify a snapshot attribute** The following `modify-snapshot-attribute` example updates the `createVolumePermission` attribute for the specified snapshot, removing volume permissions for the specified user. ``` aws ec2 modify-snapshot-attribute \ --snapshot-id snap-1234567890abcdef0 \ --attribute createVolumePermission \ --operation-type remove \ --user-ids 123456789012 ``` **Example 2: To make a snapshot public** The following `modify-snapshot-attribute` example makes the specified snapshot public. ``` aws ec2 modify-snapshot-attribute \ --snapshot-id snap-1234567890abcdef0 \ --attribute createVolumePermission \ --operation-type add \ --group-names all ``` + For API details, see [ModifySnapshotAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-snapshot-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example makes the specified snapshot public by setting its CreateVolumePermission attribute.** ``` Edit-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission -OperationType Add -GroupName all ``` + For API details, see [ModifySnapshotAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example makes the specified snapshot public by setting its CreateVolumePermission attribute.** ``` Edit-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission -OperationType Add -GroupName all ``` + For API details, see [ModifySnapshotAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifySpotFleetRequest` with a CLI The following code examples show how to use `ModifySpotFleetRequest`. ------ #### [ CLI ] **AWS CLI** **To modify a Spot fleet request** This example command updates the target capacity of the specified Spot fleet request. Command: ``` aws ec2 modify-spot-fleet-request --target-capacity 20 --spot-fleet-request-id sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE ``` Output: ``` { "Return": true } ``` This example command decreases the target capacity of the specified Spot fleet request without terminating any Spot Instances as a result. Command: ``` aws ec2 modify-spot-fleet-request --target-capacity 10 --excess-capacity-termination-policy NoTermination --spot-fleet-request-ids sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE ``` Output: ``` { "Return": true } ``` + For API details, see [ModifySpotFleetRequest](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-spot-fleet-request.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example updates the target capacity of the specified Spot fleet request.** ``` Edit-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TargetCapacity 10 ``` **Output:** ``` True ``` + For API details, see [ModifySpotFleetRequest](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example updates the target capacity of the specified Spot fleet request.** ``` Edit-EC2SpotFleetRequest -SpotFleetRequestId sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE -TargetCapacity 10 ``` **Output:** ``` True ``` + For API details, see [ModifySpotFleetRequest](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifySubnetAttribute` with a CLI The following code examples show how to use `ModifySubnetAttribute`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) ------ #### [ CLI ] **AWS CLI** **To change a subnet's public IPv4 addressing behavior** This example modifies subnet-1a2b3c4d to specify that all instances launched into this subnet are assigned a public IPv4 address. If the command succeeds, no output is returned. Command: ``` aws ec2 modify-subnet-attribute --subnet-id subnet-1a2b3c4d --map-public-ip-on-launch ``` **To change a subnet's IPv6 addressing behavior** This example modifies subnet-1a2b3c4d to specify that all instances launched into this subnet are assigned an IPv6 address from the range of the subnet. Command: ``` aws ec2 modify-subnet-attribute --subnet-id subnet-1a2b3c4d --assign-ipv6-address-on-creation ``` For more information, see IP Addressing in Your VPC in the *AWS Virtual Private Cloud User Guide*. + For API details, see [ModifySubnetAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-subnet-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example enables public IP addressing for the specified subnet.** ``` Edit-EC2SubnetAttribute -SubnetId subnet-1a2b3c4d -MapPublicIpOnLaunch $true ``` **Example 2: This example disables public IP addressing for the specified subnet.** ``` Edit-EC2SubnetAttribute -SubnetId subnet-1a2b3c4d -MapPublicIpOnLaunch $false ``` + For API details, see [ModifySubnetAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example enables public IP addressing for the specified subnet.** ``` Edit-EC2SubnetAttribute -SubnetId subnet-1a2b3c4d -MapPublicIpOnLaunch $true ``` **Example 2: This example disables public IP addressing for the specified subnet.** ``` Edit-EC2SubnetAttribute -SubnetId subnet-1a2b3c4d -MapPublicIpOnLaunch $false ``` + For API details, see [ModifySubnetAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifyVolumeAttribute` with a CLI The following code examples show how to use `ModifyVolumeAttribute`. ------ #### [ CLI ] **AWS CLI** **To modify a volume attribute** This example sets the `autoEnableIo` attribute of the volume with the ID `vol-1234567890abcdef0` to `true`. If the command succeeds, no output is returned. Command: ``` aws ec2 modify-volume-attribute --volume-id vol-1234567890abcdef0 --auto-enable-io ``` + For API details, see [ModifyVolumeAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-volume-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example modifies the specified attribute of the specified volume. I/O operations for the volume are automatically resumed after being suspended due to potentially inconsistent data.** ``` Edit-EC2VolumeAttribute -VolumeId vol-12345678 -AutoEnableIO $true ``` + For API details, see [ModifyVolumeAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example modifies the specified attribute of the specified volume. I/O operations for the volume are automatically resumed after being suspended due to potentially inconsistent data.** ``` Edit-EC2VolumeAttribute -VolumeId vol-12345678 -AutoEnableIO $true ``` + For API details, see [ModifyVolumeAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ModifyVpcAttribute` with a CLI The following code examples show how to use `ModifyVpcAttribute`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon Neptune](example_ec2_GettingStarted_064_section.md) ------ #### [ CLI ] **AWS CLI** **To modify the enableDnsSupport attribute** This example modifies the `enableDnsSupport` attribute. This attribute indicates whether DNS resolution is enabled for the VPC. If this attribute is `true`, the Amazon DNS server resolves DNS hostnames for your instances to their corresponding IP addresses; otherwise, it does not. If the command succeeds, no output is returned. Command: ``` aws ec2 modify-vpc-attribute --vpc-id vpc-a01106c2 --enable-dns-support "{\"Value\":false}" ``` **To modify the enableDnsHostnames attribute** This example modifies the `enableDnsHostnames` attribute. This attribute indicates whether instances launched in the VPC get DNS hostnames. If this attribute is `true`, instances in the VPC get DNS hostnames; otherwise, they do not. If the command succeeds, no output is returned. Command: ``` aws ec2 modify-vpc-attribute --vpc-id vpc-a01106c2 --enable-dns-hostnames "{\"Value\":false}" ``` + For API details, see [ModifyVpcAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/modify-vpc-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example enables support for DNS hostnames for the specified VPC.** ``` Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsHostnames $true ``` **Example 2: This example disables support for DNS hostnames for the specified VPC.** ``` Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsHostnames $false ``` **Example 3: This example enables support for DNS resolution for the specified VPC.** ``` Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsSupport $true ``` **Example 4: This example disables support for DNS resolution for the specified VPC.** ``` Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsSupport $false ``` + For API details, see [ModifyVpcAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example enables support for DNS hostnames for the specified VPC.** ``` Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsHostnames $true ``` **Example 2: This example disables support for DNS hostnames for the specified VPC.** ``` Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsHostnames $false ``` **Example 3: This example enables support for DNS resolution for the specified VPC.** ``` Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsSupport $true ``` **Example 4: This example disables support for DNS resolution for the specified VPC.** ``` Edit-EC2VpcAttribute -VpcId vpc-12345678 -EnableDnsSupport $false ``` + For API details, see [ModifyVpcAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `MonitorInstances` with an AWS SDK or CLI The following code examples show how to use `MonitorInstances`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Run CPU stress tests on EC2 instances using FIS](example_iam_GettingStarted_069_section.md) ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Enable detailed monitoring for an Amazon Elastic Compute Cloud (Amazon EC2) instance. /*! \param instanceId: An EC2 instance ID. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::enableMonitoring(const Aws::String &instanceId, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::MonitorInstancesRequest request; request.AddInstanceIds(instanceId); request.SetDryRun(true); Aws::EC2::Model::MonitorInstancesOutcome dryRunOutcome = ec2Client.MonitorInstances(request); if (dryRunOutcome.IsSuccess()) { std::cerr << "Failed dry run to enable monitoring on instance. A dry run should trigger an error." << std::endl; return false; } else if (dryRunOutcome.GetError().GetErrorType() != Aws::EC2::EC2Errors::DRY_RUN_OPERATION) { std::cerr << "Failed dry run to enable monitoring on instance " << instanceId << ": " << dryRunOutcome.GetError().GetMessage() << std::endl; return false; } request.SetDryRun(false); Aws::EC2::Model::MonitorInstancesOutcome monitorInstancesOutcome = ec2Client.MonitorInstances(request); if (!monitorInstancesOutcome.IsSuccess()) { std::cerr << "Failed to enable monitoring on instance " << instanceId << ": " << monitorInstancesOutcome.GetError().GetMessage() << std::endl; } else { std::cout << "Successfully enabled monitoring on instance " << instanceId << std::endl; } return monitorInstancesOutcome.IsSuccess(); } ``` + For API details, see [MonitorInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/MonitorInstances) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **To enable detailed monitoring for an instance** This example command enables detailed monitoring for the specified instance. Command: ``` aws ec2 monitor-instances --instance-ids i-1234567890abcdef0 ``` Output: ``` { "InstanceMonitorings": [ { "InstanceId": "i-1234567890abcdef0", "Monitoring": { "State": "pending" } } ] } ``` + For API details, see [MonitorInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/monitor-instances.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { EC2Client, MonitorInstancesCommand } from "@aws-sdk/client-ec2"; /** * Turn on detailed monitoring for the selected instance. * By default, metrics are sent to Amazon CloudWatch every 5 minutes. * For a cost you can enable detailed monitoring which sends metrics every minute. * @param {{ instanceIds: string[] }} options */ export const main = async ({ instanceIds }) => { const client = new EC2Client({}); const command = new MonitorInstancesCommand({ InstanceIds: instanceIds, }); try { const { InstanceMonitorings } = await client.send(command); const instancesBeingMonitored = InstanceMonitorings.map( (im) => ` • Detailed monitoring state for ${im.InstanceId} is ${im.Monitoring.State}.`, ); console.log("Monitoring status:"); console.log(instancesBeingMonitored.join("\n")); } catch (caught) { if (caught instanceof Error && caught.name === "InvalidParameterValue") { console.warn(`${caught.message}`); } else { throw caught; } } }; ``` + For API details, see [MonitorInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/MonitorInstancesCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example enables detailed monitoring for the specified instance.** ``` Start-EC2InstanceMonitoring -InstanceId i-12345678 ``` **Output:** ``` InstanceId Monitoring ---------- ---------- i-12345678 Amazon.EC2.Model.Monitoring ``` + For API details, see [MonitorInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example enables detailed monitoring for the specified instance.** ``` Start-EC2InstanceMonitoring -InstanceId i-12345678 ``` **Output:** ``` InstanceId Monitoring ---------- ---------- i-12345678 Amazon.EC2.Model.Monitoring ``` + For API details, see [MonitorInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` DATA lt_instance_ids TYPE /aws1/cl_ec2instidstringlist_w=>tt_instanceidstringlist. APPEND NEW /aws1/cl_ec2instidstringlist_w( iv_value = iv_instance_id ) TO lt_instance_ids. "Perform dry run" TRY. " DryRun is set to true. This checks for the required permissions to monitor the instance without actually making the request. " lo_ec2->monitorinstances( it_instanceids = lt_instance_ids iv_dryrun = abap_true ). CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). " If the error code returned is `DryRunOperation`, then you have the required permissions to monitor this instance. " IF lo_exception->av_err_code = 'DryRunOperation'. MESSAGE 'Dry run to enable detailed monitoring completed.' TYPE 'I'. " DryRun is set to false to enable detailed monitoring. " lo_ec2->monitorinstances( it_instanceids = lt_instance_ids iv_dryrun = abap_false ). MESSAGE 'Detailed monitoring enabled.' TYPE 'I'. " If the error code returned is `UnauthorizedOperation`, then you don't have the required permissions to monitor this instance. " ELSEIF lo_exception->av_err_code = 'UnauthorizedOperation'. MESSAGE 'Dry run to enable detailed monitoring failed. User does not have the permissions to monitor the instance.' TYPE 'E'. ELSE. DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDIF. ENDTRY. ``` + For API details, see [MonitorInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `MoveAddressToVpc` with a CLI The following code examples show how to use `MoveAddressToVpc`. ------ #### [ CLI ] **AWS CLI** **To move an address to EC2-VPC** This example moves Elastic IP address 54.123.4.56 to the EC2-VPC platform. Command: ``` aws ec2 move-address-to-vpc --public-ip 54.123.4.56 ``` Output: ``` { "Status": "MoveInProgress" } ``` + For API details, see [MoveAddressToVpc](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/move-address-to-vpc.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example moves an EC2 instance with a public IP address of 12.345.67.89 to the EC2-VPC platform in the US East (Northern Virginia) region.** ``` Move-EC2AddressToVpc -PublicIp 12.345.67.89 -Region us-east-1 ``` **Example 2: This example pipes the results of a Get-EC2Instance command to the Move-EC2AddressToVpc cmdlet. The Get-EC2Instance command gets an instance that is specified by instance ID, then returns the public IP address property of the instance.** ``` (Get-EC2Instance -Instance i-12345678).Instances.PublicIpAddress | Move-EC2AddressToVpc ``` + For API details, see [MoveAddressToVpc](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example moves an EC2 instance with a public IP address of 12.345.67.89 to the EC2-VPC platform in the US East (Northern Virginia) region.** ``` Move-EC2AddressToVpc -PublicIp 12.345.67.89 -Region us-east-1 ``` **Example 2: This example pipes the results of a Get-EC2Instance command to the Move-EC2AddressToVpc cmdlet. The Get-EC2Instance command gets an instance that is specified by instance ID, then returns the public IP address property of the instance.** ``` (Get-EC2Instance -Instance i-12345678).Instances.PublicIpAddress | Move-EC2AddressToVpc ``` + For API details, see [MoveAddressToVpc](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `PurchaseHostReservation` with a CLI The following code examples show how to use `PurchaseHostReservation`. ------ #### [ CLI ] **AWS CLI** **To purchase a Dedicated Host Reservation** This example purchases the specified Dedicated Host Reservation offering for the specified Dedicated Host in your account. Command: ``` aws ec2 purchase-host-reservation --offering-id hro-03f707bf363b6b324 --host-id-set h-013abcd2a00cbd123 ``` Output: ``` { "TotalHourlyPrice": "1.499", "Purchase": [ { "HourlyPrice": "1.499", "InstanceFamily": "m4", "PaymentOption": "NoUpfront", "HostIdSet": [ "h-013abcd2a00cbd123" ], "HostReservationId": "hr-0d418a3a4ffc669ae", "UpfrontPrice": "0.000", "Duration": 31536000 } ], "TotalUpfrontPrice": "0.000" } ``` + For API details, see [PurchaseHostReservation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/purchase-host-reservation.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example purchases the reservation offering hro-0c1f23456789d0ab with configurations that match those of your Dedicated Host h-01e23f4cd567890f1** ``` New-EC2HostReservation -OfferingId hro-0c1f23456789d0ab HostIdSet h-01e23f4cd567890f1 ``` **Output:** ``` ClientToken : CurrencyCode : Purchase : {hr-0123f4b5d67bedc89} TotalHourlyPrice : 1.307 TotalUpfrontPrice : 0.000 ``` + For API details, see [PurchaseHostReservation](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example purchases the reservation offering hro-0c1f23456789d0ab with configurations that match those of your Dedicated Host h-01e23f4cd567890f1** ``` New-EC2HostReservation -OfferingId hro-0c1f23456789d0ab HostIdSet h-01e23f4cd567890f1 ``` **Output:** ``` ClientToken : CurrencyCode : Purchase : {hr-0123f4b5d67bedc89} TotalHourlyPrice : 1.307 TotalUpfrontPrice : 0.000 ``` + For API details, see [PurchaseHostReservation](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `PurchaseScheduledInstances` with a CLI The following code examples show how to use `PurchaseScheduledInstances`. ------ #### [ CLI ] **AWS CLI** **To purchase a Scheduled Instance** This example purchases a Scheduled Instance. Command: ``` aws ec2 purchase-scheduled-instances --purchase-requests file://purchase-request.json ``` Purchase-request.json: ``` [ { "PurchaseToken": "eyJ2IjoiMSIsInMiOjEsImMiOi...", "InstanceCount": 1 } ] ``` Output: ``` { "ScheduledInstanceSet": [ { "AvailabilityZone": "us-west-2b", "ScheduledInstanceId": "sci-1234-1234-1234-1234-123456789012", "HourlyPrice": "0.095", "CreateDate": "2016-01-25T21:43:38.612Z", "Recurrence": { "OccurrenceDaySet": [ 1 ], "Interval": 1, "Frequency": "Weekly", "OccurrenceRelativeToEnd": false, "OccurrenceUnit": "" }, "Platform": "Linux/UNIX", "TermEndDate": "2017-01-31T09:00:00Z", "InstanceCount": 1, "SlotDurationInHours": 32, "TermStartDate": "2016-01-31T09:00:00Z", "NetworkPlatform": "EC2-VPC", "TotalScheduledInstanceHours": 1696, "NextSlotStartTime": "2016-01-31T09:00:00Z", "InstanceType": "c4.large" } ] } ``` + For API details, see [PurchaseScheduledInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/purchase-scheduled-instances.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example purchases a Scheduled Instance.** ``` $request = New-Object Amazon.EC2.Model.PurchaseRequest $request.InstanceCount = 1 $request.PurchaseToken = "eyJ2IjoiMSIsInMiOjEsImMiOi..." New-EC2ScheduledInstancePurchase -PurchaseRequest $request ``` **Output:** ``` AvailabilityZone : us-west-2b CreateDate : 1/25/2016 1:43:38 PM HourlyPrice : 0.095 InstanceCount : 1 InstanceType : c4.large NetworkPlatform : EC2-VPC NextSlotStartTime : 1/31/2016 1:00:00 AM Platform : Linux/UNIX PreviousSlotEndTime : Recurrence : Amazon.EC2.Model.ScheduledInstanceRecurrence ScheduledInstanceId : sci-1234-1234-1234-1234-123456789012 SlotDurationInHours : 32 TermEndDate : 1/31/2017 1:00:00 AM TermStartDate : 1/31/2016 1:00:00 AM TotalScheduledInstanceHours : 1696 ``` + For API details, see [PurchaseScheduledInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example purchases a Scheduled Instance.** ``` $request = New-Object Amazon.EC2.Model.PurchaseRequest $request.InstanceCount = 1 $request.PurchaseToken = "eyJ2IjoiMSIsInMiOjEsImMiOi..." New-EC2ScheduledInstancePurchase -PurchaseRequest $request ``` **Output:** ``` AvailabilityZone : us-west-2b CreateDate : 1/25/2016 1:43:38 PM HourlyPrice : 0.095 InstanceCount : 1 InstanceType : c4.large NetworkPlatform : EC2-VPC NextSlotStartTime : 1/31/2016 1:00:00 AM Platform : Linux/UNIX PreviousSlotEndTime : Recurrence : Amazon.EC2.Model.ScheduledInstanceRecurrence ScheduledInstanceId : sci-1234-1234-1234-1234-123456789012 SlotDurationInHours : 32 TermEndDate : 1/31/2017 1:00:00 AM TermStartDate : 1/31/2016 1:00:00 AM TotalScheduledInstanceHours : 1696 ``` + For API details, see [PurchaseScheduledInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `RebootInstances` with an AWS SDK or CLI The following code examples show how to use `RebootInstances`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Build and manage a resilient service](example_cross_ResilientService_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). Reboot an instance by its Id. ``` /// /// Reboot a specific EC2 instance. /// /// The instance Id of the instance that will be rebooted. /// Async Task. public async Task RebootInstances(string ec2InstanceId) { try { var request = new RebootInstancesRequest { InstanceIds = new List { ec2InstanceId }, }; await _amazonEC2.RebootInstancesAsync(request); // Wait for the instance to be running. Console.Write("Waiting for the instance to start."); await WaitForInstanceState(ec2InstanceId, InstanceStateName.Running); return true; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceId") { _logger.LogError( $"InstanceId {ec2InstanceId} is invalid, unable to reboot. {ec2Exception.Message}"); } return false; } catch (Exception ex) { _logger.LogError( $"An error occurred while rebooting the instance {ec2InstanceId}.: {ex.Message}"); return false; } } /// /// Wait until an EC2 instance is in a specified state. /// /// The instance Id. /// The state to wait for. /// A Boolean value indicating the success of the action. public async Task WaitForInstanceState(string instanceId, InstanceStateName stateName) { var request = new DescribeInstancesRequest { InstanceIds = new List { instanceId } }; // Wait until the instance is in the specified state. var hasState = false; do { // Wait 5 seconds. Thread.Sleep(5000); // Check for the desired state. var response = await _amazonEC2.DescribeInstancesAsync(request); var instance = response.Reservations[0].Instances[0]; hasState = instance.State.Name == stateName; Console.Write(". "); } while (!hasState); return hasState; } ``` Replace the profile for an instance, reboot, and restart a web server. ``` /// /// Replace the profile associated with a running instance. After the profile is replaced, the instance /// is rebooted to ensure that it uses the new profile. When the instance is ready, Systems Manager is /// used to restart the Python web server. /// /// The Id of the instance to update. /// The name of the new profile to associate with the specified instance. /// The Id of the existing profile association for the instance. /// Async task. public async Task ReplaceInstanceProfile(string instanceId, string credsProfileName, string associationId) { try { await _amazonEc2.ReplaceIamInstanceProfileAssociationAsync( new ReplaceIamInstanceProfileAssociationRequest() { AssociationId = associationId, IamInstanceProfile = new IamInstanceProfileSpecification() { Name = credsProfileName } }); // Allow time before resetting. Thread.Sleep(25000); await _amazonEc2.RebootInstancesAsync( new RebootInstancesRequest(new List() { instanceId })); Thread.Sleep(25000); var instanceReady = false; var retries = 5; while (retries-- > 0 && !instanceReady) { var instancesPaginator = _amazonSsm.Paginators.DescribeInstanceInformation( new DescribeInstanceInformationRequest()); // Get the entire list using the paginator. await foreach (var instance in instancesPaginator.InstanceInformationList) { instanceReady = instance.InstanceId == instanceId; if (instanceReady) { break; } } } Console.WriteLine("Waiting for instance to be running."); await WaitForInstanceState(instanceId, InstanceStateName.Running); Console.WriteLine("Instance ready."); Console.WriteLine($"Sending restart command to instance {instanceId}"); await _amazonSsm.SendCommandAsync( new SendCommandRequest() { InstanceIds = new List() { instanceId }, DocumentName = "AWS-RunShellScript", Parameters = new Dictionary>() { { "commands", new List() { "cd / && sudo python3 server.py 80" } } } }); Console.WriteLine($"Restarted the web server on instance {instanceId}"); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound") { _logger.LogError(ec2Exception, $"Instance {instanceId} not found"); } throw; } catch (Exception ex) { _logger.LogError(ex, $"An error occurred while replacing the template.: {ex.Message}"); throw; } } ``` + For API details, see [RebootInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/RebootInstances) in *AWS SDK for .NET API Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Reboot an Amazon Elastic Compute Cloud (Amazon EC2) instance. /*! \param instanceID: An EC2 instance ID. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::rebootInstance(const Aws::String &instanceId, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::RebootInstancesRequest request; request.AddInstanceIds(instanceId); request.SetDryRun(true); Aws::EC2::Model::RebootInstancesOutcome dry_run_outcome = ec2Client.RebootInstances(request); if (dry_run_outcome.IsSuccess()) { std::cerr << "Failed dry run to reboot on instance. A dry run should trigger an error." << std::endl; return false; } else if (dry_run_outcome.GetError().GetErrorType() != Aws::EC2::EC2Errors::DRY_RUN_OPERATION) { std::cout << "Failed dry run to reboot instance " << instanceId << ": " << dry_run_outcome.GetError().GetMessage() << std::endl; return false; } request.SetDryRun(false); Aws::EC2::Model::RebootInstancesOutcome outcome = ec2Client.RebootInstances(request); if (!outcome.IsSuccess()) { std::cout << "Failed to reboot instance " << instanceId << ": " << outcome.GetError().GetMessage() << std::endl; } else { std::cout << "Successfully rebooted instance " << instanceId << std::endl; } return outcome.IsSuccess(); } ``` + For API details, see [RebootInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/RebootInstances) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **To reboot an Amazon EC2 instance** This example reboots the specified instance. If the command succeeds, no output is returned. Command: ``` aws ec2 reboot-instances --instance-ids i-1234567890abcdef5 ``` For more information, see Reboot Your Instance in the *Amazon Elastic Compute Cloud User Guide*. + For API details, see [RebootInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reboot-instances.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { EC2Client, RebootInstancesCommand } from "@aws-sdk/client-ec2"; /** * Requests a reboot of the specified instances. This operation is asynchronous; * it only queues a request to reboot the specified instances. * @param {{ instanceIds: string[] }} options */ export const main = async ({ instanceIds }) => { const client = new EC2Client({}); const command = new RebootInstancesCommand({ InstanceIds: instanceIds, }); try { await client.send(command); console.log("Instance rebooted successfully."); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidInstanceID.NotFound" ) { console.warn( `${caught.message}. Please provide the InstanceId of a valid instance to reboot.`, ); } else { throw caught; } } }; ``` + For API details, see [RebootInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/RebootInstancesCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example reboots the specified instance.** ``` Restart-EC2Instance -InstanceId i-12345678 ``` + For API details, see [RebootInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example reboots the specified instance.** ``` Restart-EC2Instance -InstanceId i-12345678 ``` + For API details, see [RebootInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class AutoScalingWrapper: """ Encapsulates Amazon EC2 Auto Scaling and EC2 management actions. """ def __init__( self, resource_prefix: str, inst_type: str, ami_param: str, autoscaling_client: boto3.client, ec2_client: boto3.client, ssm_client: boto3.client, iam_client: boto3.client, ): """ Initializes the AutoScaler class with the necessary parameters. :param resource_prefix: The prefix for naming AWS resources that are created by this class. :param inst_type: The type of EC2 instance to create, such as t3.micro. :param ami_param: The Systems Manager parameter used to look up the AMI that is created. :param autoscaling_client: A Boto3 EC2 Auto Scaling client. :param ec2_client: A Boto3 EC2 client. :param ssm_client: A Boto3 Systems Manager client. :param iam_client: A Boto3 IAM client. """ self.inst_type = inst_type self.ami_param = ami_param self.autoscaling_client = autoscaling_client self.ec2_client = ec2_client self.ssm_client = ssm_client self.iam_client = iam_client sts_client = boto3.client("sts") self.account_id = sts_client.get_caller_identity()["Account"] self.key_pair_name = f"{resource_prefix}-key-pair" self.launch_template_name = f"{resource_prefix}-template-" self.group_name = f"{resource_prefix}-group" # Happy path self.instance_policy_name = f"{resource_prefix}-pol" self.instance_role_name = f"{resource_prefix}-role" self.instance_profile_name = f"{resource_prefix}-prof" # Failure mode self.bad_creds_policy_name = f"{resource_prefix}-bc-pol" self.bad_creds_role_name = f"{resource_prefix}-bc-role" self.bad_creds_profile_name = f"{resource_prefix}-bc-prof" def replace_instance_profile( self, instance_id: str, new_instance_profile_name: str, profile_association_id: str, ) -> None: """ Replaces the profile associated with a running instance. After the profile is replaced, the instance is rebooted to ensure that it uses the new profile. When the instance is ready, Systems Manager is used to restart the Python web server. :param instance_id: The ID of the instance to restart. :param new_instance_profile_name: The name of the new profile to associate with the specified instance. :param profile_association_id: The ID of the existing profile association for the instance. """ try: self.ec2_client.replace_iam_instance_profile_association( IamInstanceProfile={"Name": new_instance_profile_name}, AssociationId=profile_association_id, ) log.info( "Replaced instance profile for association %s with profile %s.", profile_association_id, new_instance_profile_name, ) time.sleep(5) self.ec2_client.reboot_instances(InstanceIds=[instance_id]) log.info("Rebooting instance %s.", instance_id) waiter = self.ec2_client.get_waiter("instance_running") log.info("Waiting for instance %s to be running.", instance_id) waiter.wait(InstanceIds=[instance_id]) log.info("Instance %s is now running.", instance_id) self.ssm_client.send_command( InstanceIds=[instance_id], DocumentName="AWS-RunShellScript", Parameters={"commands": ["cd / && sudo python3 server.py 80"]}, ) log.info(f"Restarted the Python web server on instance '{instance_id}'.") except ClientError as err: log.error("Failed to replace instance profile.") error_code = err.response["Error"]["Code"] if error_code == "InvalidAssociationID.NotFound": log.error( f"Association ID '{profile_association_id}' does not exist." "Please check the association ID and try again." ) if error_code == "InvalidInstanceId": log.error( f"The specified instance ID '{instance_id}' does not exist or is not available for SSM. " f"Please verify the instance ID and try again." ) log.error(f"Full error:\n\t{err}") ``` + For API details, see [RebootInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/RebootInstances) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn reboot(&self, ec2: &EC2) -> Result<(), EC2Error> { if self.instance.is_some() { ec2.reboot_instance(self.instance_id()).await?; ec2.wait_for_instance_stopped(self.instance_id(), None) .await?; ec2.wait_for_instance_ready(self.instance_id(), None) .await?; } Ok(()) } ``` ``` pub async fn reboot_instance(&self, instance_id: &str) -> Result<(), EC2Error> { tracing::info!("Rebooting instance {instance_id}"); self.client .reboot_instances() .instance_ids(instance_id) .send() .await?; Ok(()) } ``` Waiters for instance to be in the stopped and ready states, using the Waiters API. Using the Waiters API requires `use aws\$1sdk\$1ec2::client::Waiters` in the rust file. ``` /// Wait for an instance to be ready and status ok (default wait 60 seconds) pub async fn wait_for_instance_ready( &self, instance_id: &str, duration: Option, ) -> Result<(), EC2Error> { self.client .wait_until_instance_status_ok() .instance_ids(instance_id) .wait(duration.unwrap_or(Duration::from_secs(60))) .await .map_err(|err| match err { WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!( "Exceeded max time ({}s) waiting for instance to start.", exceeded.max_wait().as_secs() )), _ => EC2Error::from(err), })?; Ok(()) } pub async fn wait_for_instance_stopped( &self, instance_id: &str, duration: Option, ) -> Result<(), EC2Error> { self.client .wait_until_instance_stopped() .instance_ids(instance_id) .wait(duration.unwrap_or(Duration::from_secs(60))) .await .map_err(|err| match err { WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!( "Exceeded max time ({}s) waiting for instance to stop.", exceeded.max_wait().as_secs(), )), _ => EC2Error::from(err), })?; Ok(()) } ``` + For API details, see [RebootInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.reboot_instances) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` DATA lt_instance_ids TYPE /aws1/cl_ec2instidstringlist_w=>tt_instanceidstringlist. APPEND NEW /aws1/cl_ec2instidstringlist_w( iv_value = iv_instance_id ) TO lt_instance_ids. "Perform dry run" TRY. " DryRun is set to true. This checks for the required permissions to reboot the instance without actually making the request. " lo_ec2->rebootinstances( it_instanceids = lt_instance_ids iv_dryrun = abap_true ). CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). " If the error code returned is `DryRunOperation`, then you have the required permissions to reboot this instance. " IF lo_exception->av_err_code = 'DryRunOperation'. MESSAGE 'Dry run to reboot instance completed.' TYPE 'I'. " DryRun is set to false to make a reboot request. " lo_ec2->rebootinstances( it_instanceids = lt_instance_ids iv_dryrun = abap_false ). MESSAGE 'Instance rebooted.' TYPE 'I'. " If the error code returned is `UnauthorizedOperation`, then you don't have the required permissions to reboot this instance. " ELSEIF lo_exception->av_err_code = 'UnauthorizedOperation'. MESSAGE 'Dry run to reboot instance failed. User does not have permissions to reboot the instance.' TYPE 'E'. ELSE. DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDIF. ENDTRY. ``` + For API details, see [RebootInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `RegisterImage` with a CLI The following code examples show how to use `RegisterImage`. ------ #### [ CLI ] **AWS CLI** **Example 1: To register an AMI using a manifest file** The following `register-image` example registers an AMI using the specified manifest file in Amazon S3. ``` aws ec2 register-image \ --name my-image \ --image-location amzn-s3-demo-bucket/myimage/image.manifest.xml ``` Output: ``` { "ImageId": "ami-1234567890EXAMPLE" } ``` For more information, see [Amazon Machine Images (AMI)](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/AMIs.html) in the *Amazon EC2 User Guide*. **Example 2: To register an AMI using a snapshot of a root device** The following `register-image` example registers an AMI using the specified snapshot of an EBS root volume as device `/dev/xvda`. The block device mapping also includes an empty 100 GiB EBS volume as device `/dev/xvdf`. ``` aws ec2 register-image \ --name my-image \ --root-device-name /dev/xvda \ --block-device-mappings DeviceName=/dev/xvda,Ebs={SnapshotId=snap-0db2cf683925d191f} DeviceName=/dev/xvdf,Ebs={VolumeSize=100} ``` Output: ``` { "ImageId": "ami-1a2b3c4d5eEXAMPLE" } ``` For more information, see [Amazon Machine Images (AMI)](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/AMIs.html) in the *Amazon EC2 User Guide*. + For API details, see [RegisterImage](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/register-image.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example registers an AMI using the specified manifest file in Amazon S3.** ``` Register-EC2Image -ImageLocation amzn-s3-demo-bucket/my-web-server-ami/image.manifest.xml -Name my-web-server-ami ``` + For API details, see [RegisterImage](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example registers an AMI using the specified manifest file in Amazon S3.** ``` Register-EC2Image -ImageLocation amzn-s3-demo-bucket/my-web-server-ami/image.manifest.xml -Name my-web-server-ami ``` + For API details, see [RegisterImage](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `RejectVpcPeeringConnection` with a CLI The following code examples show how to use `RejectVpcPeeringConnection`. ------ #### [ CLI ] **AWS CLI** **To reject a VPC peering connection** This example rejects the specified VPC peering connection request. Command: ``` aws ec2 reject-vpc-peering-connection --vpc-peering-connection-id pcx-1a2b3c4d ``` Output: ``` { "Return": true } ``` + For API details, see [RejectVpcPeeringConnection](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reject-vpc-peering-connection.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: The above example denies the request for VpcPeering request id pcx-01a2b3ce45fe67eb8** ``` Deny-EC2VpcPeeringConnection -VpcPeeringConnectionId pcx-01a2b3ce45fe67eb8 ``` + For API details, see [RejectVpcPeeringConnection](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: The above example denies the request for VpcPeering request id pcx-01a2b3ce45fe67eb8** ``` Deny-EC2VpcPeeringConnection -VpcPeeringConnectionId pcx-01a2b3ce45fe67eb8 ``` + For API details, see [RejectVpcPeeringConnection](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ReleaseAddress` with an AWS SDK or CLI The following code examples show how to use `ReleaseAddress`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) + [VPC with private servers](example_vpc_GettingStartedPrivate_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Release an Elastic IP address. After the Elastic IP address is released, /// it can no longer be used. /// /// The allocation Id of the Elastic IP address. /// True if successful. public async Task ReleaseAddress(string allocationId) { try { var request = new ReleaseAddressRequest { AllocationId = allocationId }; var response = await _amazonEC2.ReleaseAddressAsync(request); return response.HttpStatusCode == HttpStatusCode.OK; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidAllocationID.NotFound") { _logger.LogError( $"AllocationId {allocationId} was not found. {ec2Exception.Message}"); } return false; } catch (Exception ex) { _logger.LogError( $"An error occurred while releasing the AllocationId {allocationId}.: {ex.Message}"); return false; } } ``` + For API details, see [ReleaseAddress](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/ReleaseAddress) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_release_address # # This function releases an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance. # # Parameters: # -a allocation_id - The allocation ID of the Elastic IP address to release. # # Returns: # 0 - If successful. # 1 - If it fails. # ############################################################################### function ec2_release_address() { local allocation_id response # Function to display usage information function usage() { echo "function ec2_release_address" echo "Releases an Elastic IP address from an Amazon Elastic Compute Cloud (Amazon EC2) instance." echo " -a allocation_id - The allocation ID of the Elastic IP address to release." echo "" } # Parse the command-line arguments while getopts "a:h" option; do case "${option}" in a) allocation_id="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Validate the input parameters if [[ -z "$allocation_id" ]]; then errecho "ERROR: You must provide an allocation ID with the -a parameter." return 1 fi response=$(aws ec2 release-address \ --allocation-id "$allocation_id") || { aws_cli_error_log ${?} errecho "ERROR: AWS reports release-address operation failed." errecho "$response" return 1 } return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [ReleaseAddress](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/ReleaseAddress) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Release an Elastic IP address. /*! \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::releaseAddress(const Aws::String &allocationID, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2(clientConfiguration); Aws::EC2::Model::ReleaseAddressRequest request; request.SetAllocationId(allocationID); Aws::EC2::Model::ReleaseAddressOutcome outcome = ec2.ReleaseAddress(request); if (!outcome.IsSuccess()) { std::cerr << "Failed to release Elastic IP address " << allocationID << ":" << outcome.GetError().GetMessage() << std::endl; } else { std::cout << "Successfully released Elastic IP address " << allocationID << std::endl; } return outcome.IsSuccess(); } ``` + For API details, see [ReleaseAddress](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/ReleaseAddress) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **To release an Elastic IP addresses for EC2-Classic** This example releases an Elastic IP address for use with instances in EC2-Classic. If the command succeeds, no output is returned. Command: ``` aws ec2 release-address --public-ip 198.51.100.0 ``` **To release an Elastic IP address for EC2-VPC** This example releases an Elastic IP address for use with instances in a VPC. If the command succeeds, no output is returned. Command: ``` aws ec2 release-address --allocation-id eipalloc-64d5890a ``` + For API details, see [ReleaseAddress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/release-address.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Releases an Elastic IP address asynchronously. * * @param allocId the allocation ID of the Elastic IP address to be released * @return a {@link CompletableFuture} representing the asynchronous operation of releasing the Elastic IP address */ public CompletableFuture releaseEC2AddressAsync(String allocId) { ReleaseAddressRequest request = ReleaseAddressRequest.builder() .allocationId(allocId) .build(); CompletableFuture response = getAsyncClient().releaseAddress(request); response.whenComplete((resp, ex) -> { if (ex != null) { throw new RuntimeException("Failed to release Elastic IP address", ex); } }); return response; } ``` + For API details, see [ReleaseAddress](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/ReleaseAddress) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { ReleaseAddressCommand, EC2Client } from "@aws-sdk/client-ec2"; /** * Release an Elastic IP address. * @param {{ allocationId: string }} options */ export const main = async ({ allocationId }) => { const client = new EC2Client({}); const command = new ReleaseAddressCommand({ // You can also use PublicIp, but that is for EC2 classic which is being retired. AllocationId: allocationId, }); try { await client.send(command); console.log("Successfully released address."); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidAllocationID.NotFound" ) { console.warn(`${caught.message}. Please provide a valid AllocationID.`); } else { throw caught; } } }; ``` + For API details, see [ReleaseAddress](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/ReleaseAddressCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun releaseEC2AddressSc(allocId: String?) { val request = ReleaseAddressRequest { allocationId = allocId } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.releaseAddress(request) println("Successfully released Elastic IP address $allocId") } } ``` + For API details, see [ReleaseAddress](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example releases the specified Elastic IP address for instances in a VPC.** ``` Remove-EC2Address -AllocationId eipalloc-12345678 -Force ``` **Example 2: This example releases the specified Elastic IP address for instances in EC2-Classic.** ``` Remove-EC2Address -PublicIp 198.51.100.2 -Force ``` + For API details, see [ReleaseAddress](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example releases the specified Elastic IP address for instances in a VPC.** ``` Remove-EC2Address -AllocationId eipalloc-12345678 -Force ``` **Example 2: This example releases the specified Elastic IP address for instances in EC2-Classic.** ``` Remove-EC2Address -PublicIp 198.51.100.2 -Force ``` + For API details, see [ReleaseAddress](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class ElasticIpWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) Elastic IP address actions using the client interface.""" class ElasticIp: """Represents an Elastic IP and its associated instance.""" def __init__( self, allocation_id: str, public_ip: str, instance_id: Optional[str] = None ) -> None: """ Initializes the ElasticIp object. :param allocation_id: The allocation ID of the Elastic IP. :param public_ip: The public IP address of the Elastic IP. :param instance_id: The ID of the associated EC2 instance, if any. """ self.allocation_id = allocation_id self.public_ip = public_ip self.instance_id = instance_id def __init__(self, ec2_client: Any) -> None: """ Initializes the ElasticIpWrapper with an EC2 client. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. """ self.ec2_client = ec2_client self.elastic_ips: List[ElasticIpWrapper.ElasticIp] = [] @classmethod def from_client(cls) -> "ElasticIpWrapper": """ Creates an ElasticIpWrapper instance with a default EC2 client. :return: An instance of ElasticIpWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def release(self, allocation_id: str) -> None: """ Releases an Elastic IP address. After the Elastic IP address is released, it can no longer be used. :param allocation_id: The allocation ID of the Elastic IP to release. :raises ClientError: If the release fails, such as when the Elastic IP address is not found. """ elastic_ip = self.get_elastic_ip_by_allocation(self.elastic_ips, allocation_id) if elastic_ip is None: logger.info(f"No Elastic IP found with allocation ID {allocation_id}.") return try: self.ec2_client.release_address(AllocationId=allocation_id) self.elastic_ips.remove(elastic_ip) # Remove the Elastic IP from the list except ClientError as err: if err.response["Error"]["Code"] == "InvalidAddress.NotFound": logger.error( f"Failed to release Elastic IP address {allocation_id} " "because it could not be found. Verify the Elastic IP address " "and ensure it is allocated to your account in the correct region " "before attempting to release it." ) raise ``` + For API details, see [ReleaseAddress](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/ReleaseAddress) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` # Releases an Elastic IP address from an # Amazon Elastic Compute Cloud (Amazon EC2) instance. # # Prerequisites: # # - An Amazon EC2 instance with an associated Elastic IP address. # # @param ec2_client [Aws::EC2::Client] An initialized EC2 client. # @param allocation_id [String] The ID of the allocation corresponding to # the Elastic IP address. # @return [Boolean] true if the Elastic IP address was released; # otherwise, false. # @example # exit 1 unless elastic_ip_address_released?( # Aws::EC2::Client.new(region: 'us-west-2'), # 'eipalloc-04452e528a66279EX' # ) def elastic_ip_address_released?(ec2_client, allocation_id) ec2_client.release_address(allocation_id: allocation_id) true rescue StandardError => e puts("Error releasing Elastic IP address: #{e.message}") false end ``` + For API details, see [ReleaseAddress](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/ReleaseAddress) in *AWS SDK for Ruby API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn deallocate_ip_address(&self, allocation_id: &str) -> Result<(), EC2Error> { self.client .release_address() .allocation_id(allocation_id) .send() .await?; Ok(()) } ``` + For API details, see [ReleaseAddress](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.release_address) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` TRY. lo_ec2->releaseaddress( iv_allocationid = iv_allocation_id ). MESSAGE 'Elastic IP address released.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [ReleaseAddress](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Release an allocated Elastic IP. /// /// - Parameter allocationId: The allocation ID of the Elastic IP to /// release. func releaseAddress(allocationId: String?) async { do { _ = try await ec2Client.releaseAddress( input: ReleaseAddressInput( allocationId: allocationId ) ) } catch { print("*** Unable to release the IP address: \(error.localizedDescription)") } } ``` + For API details, see [ReleaseAddress](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/releaseaddress(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ReleaseHosts` with a CLI The following code examples show how to use `ReleaseHosts`. ------ #### [ CLI ] **AWS CLI** **To release a Dedicated host from your account** To release a Dedicated host from your account. Instances that are on the host must be stopped or terminated before the host can be released. Command: ``` aws ec2 release-hosts --host-id=h-0029d6e3cacf1b3da ``` Output: ``` { "Successful": [ "h-0029d6e3cacf1b3da" ], "Unsuccessful": [] } ``` + For API details, see [ReleaseHosts](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/release-hosts.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example releases the given host ID h-0badafd1dcb2f3456** ``` Remove-EC2Host -HostId h-0badafd1dcb2f3456 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing the operation "Remove-EC2Host (ReleaseHosts)" on target "h-0badafd1dcb2f3456". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): Y Successful Unsuccessful ---------- ------------ {h-0badafd1dcb2f3456} {} ``` + For API details, see [ReleaseHosts](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example releases the given host ID h-0badafd1dcb2f3456** ``` Remove-EC2Host -HostId h-0badafd1dcb2f3456 ``` **Output:** ``` Confirm Are you sure you want to perform this action? Performing the operation "Remove-EC2Host (ReleaseHosts)" on target "h-0badafd1dcb2f3456". [Y] Yes [A] Yes to All [N] No [L] No to All [S] Suspend [?] Help (default is "Y"): Y Successful Unsuccessful ---------- ------------ {h-0badafd1dcb2f3456} {} ``` + For API details, see [ReleaseHosts](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ReplaceIamInstanceProfileAssociation` with an AWS SDK or CLI The following code examples show how to use `ReplaceIamInstanceProfileAssociation`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Build and manage a resilient service](example_cross_ResilientService_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/cross-service/ResilientService/AutoScalerActions#code-examples). ``` /// /// Replace the profile associated with a running instance. After the profile is replaced, the instance /// is rebooted to ensure that it uses the new profile. When the instance is ready, Systems Manager is /// used to restart the Python web server. /// /// The Id of the instance to update. /// The name of the new profile to associate with the specified instance. /// The Id of the existing profile association for the instance. /// Async task. public async Task ReplaceInstanceProfile(string instanceId, string credsProfileName, string associationId) { try { await _amazonEc2.ReplaceIamInstanceProfileAssociationAsync( new ReplaceIamInstanceProfileAssociationRequest() { AssociationId = associationId, IamInstanceProfile = new IamInstanceProfileSpecification() { Name = credsProfileName } }); // Allow time before resetting. Thread.Sleep(25000); await _amazonEc2.RebootInstancesAsync( new RebootInstancesRequest(new List() { instanceId })); Thread.Sleep(25000); var instanceReady = false; var retries = 5; while (retries-- > 0 && !instanceReady) { var instancesPaginator = _amazonSsm.Paginators.DescribeInstanceInformation( new DescribeInstanceInformationRequest()); // Get the entire list using the paginator. await foreach (var instance in instancesPaginator.InstanceInformationList) { instanceReady = instance.InstanceId == instanceId; if (instanceReady) { break; } } } Console.WriteLine("Waiting for instance to be running."); await WaitForInstanceState(instanceId, InstanceStateName.Running); Console.WriteLine("Instance ready."); Console.WriteLine($"Sending restart command to instance {instanceId}"); await _amazonSsm.SendCommandAsync( new SendCommandRequest() { InstanceIds = new List() { instanceId }, DocumentName = "AWS-RunShellScript", Parameters = new Dictionary>() { { "commands", new List() { "cd / && sudo python3 server.py 80" } } } }); Console.WriteLine($"Restarted the web server on instance {instanceId}"); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceID.NotFound") { _logger.LogError(ec2Exception, $"Instance {instanceId} not found"); } throw; } catch (Exception ex) { _logger.LogError(ex, $"An error occurred while replacing the template.: {ex.Message}"); throw; } } ``` + For API details, see [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation) in *AWS SDK for .NET API Reference*. ------ #### [ CLI ] **AWS CLI** **To replace an IAM instance profile for an instance** This example replaces the IAM instance profile represented by the association `iip-assoc-060bae234aac2e7fa` with the IAM instance profile named `AdminRole`. ``` aws ec2 replace-iam-instance-profile-association \ --iam-instance-profile Name=AdminRole \ --association-id iip-assoc-060bae234aac2e7fa ``` Output: ``` { "IamInstanceProfileAssociation": { "InstanceId": "i-087711ddaf98f9489", "State": "associating", "AssociationId": "iip-assoc-0b215292fab192820", "IamInstanceProfile": { "Id": "AIPAJLNLDX3AMYZNWYYAY", "Arn": "arn:aws:iam::123456789012:instance-profile/AdminRole" } } } ``` + For API details, see [ReplaceIamInstanceProfileAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/replace-iam-instance-profile-association.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/cross-services/wkflw-resilient-service#code-examples). ``` await retry({ intervalInMs: 1000, maxRetries: 30 }, () => ec2Client.send( new ReplaceIamInstanceProfileAssociationCommand({ AssociationId: state.instanceProfileAssociationId, IamInstanceProfile: { Name: NAMES.ssmOnlyInstanceProfileName }, }), ), ); ``` + For API details, see [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/ReplaceIamInstanceProfileAssociationCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). This example replaces the instance profile of a running instance, reboots the instance, and sends a command to the instance after it starts. ``` class AutoScalingWrapper: """ Encapsulates Amazon EC2 Auto Scaling and EC2 management actions. """ def __init__( self, resource_prefix: str, inst_type: str, ami_param: str, autoscaling_client: boto3.client, ec2_client: boto3.client, ssm_client: boto3.client, iam_client: boto3.client, ): """ Initializes the AutoScaler class with the necessary parameters. :param resource_prefix: The prefix for naming AWS resources that are created by this class. :param inst_type: The type of EC2 instance to create, such as t3.micro. :param ami_param: The Systems Manager parameter used to look up the AMI that is created. :param autoscaling_client: A Boto3 EC2 Auto Scaling client. :param ec2_client: A Boto3 EC2 client. :param ssm_client: A Boto3 Systems Manager client. :param iam_client: A Boto3 IAM client. """ self.inst_type = inst_type self.ami_param = ami_param self.autoscaling_client = autoscaling_client self.ec2_client = ec2_client self.ssm_client = ssm_client self.iam_client = iam_client sts_client = boto3.client("sts") self.account_id = sts_client.get_caller_identity()["Account"] self.key_pair_name = f"{resource_prefix}-key-pair" self.launch_template_name = f"{resource_prefix}-template-" self.group_name = f"{resource_prefix}-group" # Happy path self.instance_policy_name = f"{resource_prefix}-pol" self.instance_role_name = f"{resource_prefix}-role" self.instance_profile_name = f"{resource_prefix}-prof" # Failure mode self.bad_creds_policy_name = f"{resource_prefix}-bc-pol" self.bad_creds_role_name = f"{resource_prefix}-bc-role" self.bad_creds_profile_name = f"{resource_prefix}-bc-prof" def replace_instance_profile( self, instance_id: str, new_instance_profile_name: str, profile_association_id: str, ) -> None: """ Replaces the profile associated with a running instance. After the profile is replaced, the instance is rebooted to ensure that it uses the new profile. When the instance is ready, Systems Manager is used to restart the Python web server. :param instance_id: The ID of the instance to restart. :param new_instance_profile_name: The name of the new profile to associate with the specified instance. :param profile_association_id: The ID of the existing profile association for the instance. """ try: self.ec2_client.replace_iam_instance_profile_association( IamInstanceProfile={"Name": new_instance_profile_name}, AssociationId=profile_association_id, ) log.info( "Replaced instance profile for association %s with profile %s.", profile_association_id, new_instance_profile_name, ) time.sleep(5) self.ec2_client.reboot_instances(InstanceIds=[instance_id]) log.info("Rebooting instance %s.", instance_id) waiter = self.ec2_client.get_waiter("instance_running") log.info("Waiting for instance %s to be running.", instance_id) waiter.wait(InstanceIds=[instance_id]) log.info("Instance %s is now running.", instance_id) self.ssm_client.send_command( InstanceIds=[instance_id], DocumentName="AWS-RunShellScript", Parameters={"commands": ["cd / && sudo python3 server.py 80"]}, ) log.info(f"Restarted the Python web server on instance '{instance_id}'.") except ClientError as err: log.error("Failed to replace instance profile.") error_code = err.response["Error"]["Code"] if error_code == "InvalidAssociationID.NotFound": log.error( f"Association ID '{profile_association_id}' does not exist." "Please check the association ID and try again." ) if error_code == "InvalidInstanceId": log.error( f"The specified instance ID '{instance_id}' does not exist or is not available for SSM. " f"Please verify the instance ID and try again." ) log.error(f"Full error:\n\t{err}") ``` + For API details, see [ReplaceIamInstanceProfileAssociation](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/ReplaceIamInstanceProfileAssociation) in *AWS SDK for Python (Boto3) API Reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ReplaceNetworkAclAssociation` with a CLI The following code examples show how to use `ReplaceNetworkAclAssociation`. ------ #### [ CLI ] **AWS CLI** **To replace the network ACL associated with a subnet** This example associates the specified network ACL with the subnet for the specified network ACL association. Command: ``` aws ec2 replace-network-acl-association --association-id aclassoc-e5b95c8c --network-acl-id acl-5fb85d36 ``` Output: ``` { "NewAssociationId": "aclassoc-3999875b" } ``` + For API details, see [ReplaceNetworkAclAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/replace-network-acl-association.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example associates the specified network ACL with the subnet for the specified network ACL association.** ``` Set-EC2NetworkAclAssociation -NetworkAclId acl-12345678 -AssociationId aclassoc-1a2b3c4d ``` **Output:** ``` aclassoc-87654321 ``` + For API details, see [ReplaceNetworkAclAssociation](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example associates the specified network ACL with the subnet for the specified network ACL association.** ``` Set-EC2NetworkAclAssociation -NetworkAclId acl-12345678 -AssociationId aclassoc-1a2b3c4d ``` **Output:** ``` aclassoc-87654321 ``` + For API details, see [ReplaceNetworkAclAssociation](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ReplaceNetworkAclEntry` with a CLI The following code examples show how to use `ReplaceNetworkAclEntry`. ------ #### [ CLI ] **AWS CLI** **To replace a network ACL entry** This example replaces an entry for the specified network ACL. The new rule 100 allows ingress traffic from 203.0.113.12/24 on UDP port 53 (DNS) into any associated subnet. Command: ``` aws ec2 replace-network-acl-entry --network-acl-id acl-5fb85d36 --ingress --rule-number 100 --protocol udp --port-range From=53,To=53 --cidr-block 203.0.113.12/24 --rule-action allow ``` + For API details, see [ReplaceNetworkAclEntry](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/replace-network-acl-entry.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example replaces the specified entry for the specified network ACL. The new rule allows inbound traffic from the specified address to any associated subnet.** ``` Set-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100 -Protocol 17 -PortRange_From 53 -PortRange_To 53 -CidrBlock 203.0.113.12/24 -RuleAction allow ``` + For API details, see [ReplaceNetworkAclEntry](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example replaces the specified entry for the specified network ACL. The new rule allows inbound traffic from the specified address to any associated subnet.** ``` Set-EC2NetworkAclEntry -NetworkAclId acl-12345678 -Egress $false -RuleNumber 100 -Protocol 17 -PortRange_From 53 -PortRange_To 53 -CidrBlock 203.0.113.12/24 -RuleAction allow ``` + For API details, see [ReplaceNetworkAclEntry](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ReplaceRoute` with a CLI The following code examples show how to use `ReplaceRoute`. ------ #### [ CLI ] **AWS CLI** **To replace a route** This example replaces the specified route in the specified route table. The new route matches the specified CIDR and sends the traffic to the specified virtual private gateway. If the command succeeds, no output is returned. Command: ``` aws ec2 replace-route --route-table-id rtb-22574640 --destination-cidr-block 10.0.0.0/16 --gateway-id vgw-9a4cacf3 ``` + For API details, see [ReplaceRoute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/replace-route.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example replaces the specified route for the specified route table. The new route sends the specified traffic to the specified virtual private gateway.** ``` Set-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 10.0.0.0/24 -GatewayId vgw-1a2b3c4d ``` + For API details, see [ReplaceRoute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example replaces the specified route for the specified route table. The new route sends the specified traffic to the specified virtual private gateway.** ``` Set-EC2Route -RouteTableId rtb-1a2b3c4d -DestinationCidrBlock 10.0.0.0/24 -GatewayId vgw-1a2b3c4d ``` + For API details, see [ReplaceRoute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ReplaceRouteTableAssociation` with a CLI The following code examples show how to use `ReplaceRouteTableAssociation`. ------ #### [ CLI ] **AWS CLI** **To replace the route table associated with a subnet** This example associates the specified route table with the subnet for the specified route table association. Command: ``` aws ec2 replace-route-table-association --association-id rtbassoc-781d0d1a --route-table-id rtb-22574640 ``` Output: ``` { "NewAssociationId": "rtbassoc-3a1f0f58" } ``` + For API details, see [ReplaceRouteTableAssociation](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/replace-route-table-association.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example associates the specified route table with the subnet for the specified route table association.** ``` Set-EC2RouteTableAssociation -RouteTableId rtb-1a2b3c4d -AssociationId rtbassoc-12345678 ``` **Output:** ``` rtbassoc-87654321 ``` + For API details, see [ReplaceRouteTableAssociation](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example associates the specified route table with the subnet for the specified route table association.** ``` Set-EC2RouteTableAssociation -RouteTableId rtb-1a2b3c4d -AssociationId rtbassoc-12345678 ``` **Output:** ``` rtbassoc-87654321 ``` + For API details, see [ReplaceRouteTableAssociation](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ReportInstanceStatus` with a CLI The following code examples show how to use `ReportInstanceStatus`. ------ #### [ CLI ] **AWS CLI** **To report status feedback for an instance** This example command reports status feedback for the specified instance. Command: ``` aws ec2 report-instance-status --instances i-1234567890abcdef0 --status impaired --reason-codes unresponsive ``` + For API details, see [ReportInstanceStatus](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/report-instance-status.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example reports status feedback for the specified instance.** ``` Send-EC2InstanceStatus -Instance i-12345678 -Status impaired -ReasonCode unresponsive ``` + For API details, see [ReportInstanceStatus](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example reports status feedback for the specified instance.** ``` Send-EC2InstanceStatus -Instance i-12345678 -Status impaired -ReasonCode unresponsive ``` + For API details, see [ReportInstanceStatus](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `RequestSpotFleet` with a CLI The following code examples show how to use `RequestSpotFleet`. ------ #### [ CLI ] **AWS CLI** **To request a Spot fleet in the subnet with the lowest price** This example command creates a Spot fleet request with two launch specifications that differ only by subnet. The Spot fleet launches the instances in the specified subnet with the lowest price. If the instances are launched in a default VPC, they receive a public IP address by default. If the instances are launched in a nondefault VPC, they do not receive a public IP address by default. Note that you can't specify different subnets from the same Availability Zone in a Spot fleet request. Command: ``` aws ec2 request-spot-fleet --spot-fleet-request-config file://config.json ``` Config.json: ``` { "SpotPrice": "0.04", "TargetCapacity": 2, "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role", "LaunchSpecifications": [ { "ImageId": "ami-1a2b3c4d", "KeyName": "my-key-pair", "SecurityGroups": [ { "GroupId": "sg-1a2b3c4d" } ], "InstanceType": "m3.medium", "SubnetId": "subnet-1a2b3c4d, subnet-3c4d5e6f", "IamInstanceProfile": { "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role" } } ] } ``` Output: ``` { "SpotFleetRequestId": "sfr-73fbd2ce-aa30-494c-8788-1cee4EXAMPLE" } ``` **To request a Spot fleet in the Availability Zone with the lowest price** This example command creates a Spot fleet request with two launch specifications that differ only by Availability Zone. The Spot fleet launches the instances in the specified Availability Zone with the lowest price. If your account supports EC2-VPC only, Amazon EC2 launches the Spot instances in the default subnet of the Availability Zone. If your account supports EC2-Classic, Amazon EC2 launches the instances in EC2-Classic in the Availability Zone. Command: ``` aws ec2 request-spot-fleet --spot-fleet-request-config file://config.json ``` Config.json: ``` { "SpotPrice": "0.04", "TargetCapacity": 2, "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role", "LaunchSpecifications": [ { "ImageId": "ami-1a2b3c4d", "KeyName": "my-key-pair", "SecurityGroups": [ { "GroupId": "sg-1a2b3c4d" } ], "InstanceType": "m3.medium", "Placement": { "AvailabilityZone": "us-west-2a, us-west-2b" }, "IamInstanceProfile": { "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role" } } ] } ``` **To launch Spot instances in a subnet and assign them public IP addresses** This example command assigns public addresses to instances launched in a nondefault VPC. Note that when you specify a network interface, you must include the subnet ID and security group ID using the network interface. Command: ``` aws ec2 request-spot-fleet --spot-fleet-request-config file://config.json ``` Config.json: ``` { "SpotPrice": "0.04", "TargetCapacity": 2, "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role", "LaunchSpecifications": [ { "ImageId": "ami-1a2b3c4d", "KeyName": "my-key-pair", "InstanceType": "m3.medium", "NetworkInterfaces": [ { "DeviceIndex": 0, "SubnetId": "subnet-1a2b3c4d", "Groups": [ "sg-1a2b3c4d" ], "AssociatePublicIpAddress": true } ], "IamInstanceProfile": { "Arn": "arn:aws:iam::880185128111:instance-profile/my-iam-role" } } ] } ``` **To request a Spot fleet using the diversified allocation strategy** This example command creates a Spot fleet request that launches 30 instances using the diversified allocation strategy. The launch specifications differ by instance type. The Spot fleet distributes the instances across the launch specifications such that there are 10 instances of each type. Command: ``` aws ec2 request-spot-fleet --spot-fleet-request-config file://config.json ``` Config.json: ``` { "SpotPrice": "0.70", "TargetCapacity": 30, "AllocationStrategy": "diversified", "IamFleetRole": "arn:aws:iam::123456789012:role/my-spot-fleet-role", "LaunchSpecifications": [ { "ImageId": "ami-1a2b3c4d", "InstanceType": "c4.2xlarge", "SubnetId": "subnet-1a2b3c4d" }, { "ImageId": "ami-1a2b3c4d", "InstanceType": "m3.2xlarge", "SubnetId": "subnet-1a2b3c4d" }, { "ImageId": "ami-1a2b3c4d", "InstanceType": "r3.2xlarge", "SubnetId": "subnet-1a2b3c4d" } ] } ``` For more information, see Spot Fleet Requests in the *Amazon Elastic Compute Cloud User Guide*. + For API details, see [RequestSpotFleet](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/request-spot-fleet.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example creates a Spot fleet request in the Availability Zone with the lowest price for the specified instance type. If your account supports EC2-VPC only, the Spot fleet launches the instances in the lowest-priced Availability Zone that has a default subnet. If your account supports EC2-Classic, the Spot fleet launches the instances in EC2-Classic in the lowest-priced Availability Zone. Note that the price you pay will not exceed the specified Spot price for the request.** ``` $sg = New-Object Amazon.EC2.Model.GroupIdentifier $sg.GroupId = "sg-12345678" $lc = New-Object Amazon.EC2.Model.SpotFleetLaunchSpecification $lc.ImageId = "ami-12345678" $lc.InstanceType = "m3.medium" $lc.SecurityGroups.Add($sg) Request-EC2SpotFleet -SpotFleetRequestConfig_SpotPrice 0.04 ` -SpotFleetRequestConfig_TargetCapacity 2 ` -SpotFleetRequestConfig_IamFleetRole arn:aws:iam::123456789012:role/my-spot-fleet-role ` -SpotFleetRequestConfig_LaunchSpecification $lc ``` + For API details, see [RequestSpotFleet](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example creates a Spot fleet request in the Availability Zone with the lowest price for the specified instance type. If your account supports EC2-VPC only, the Spot fleet launches the instances in the lowest-priced Availability Zone that has a default subnet. If your account supports EC2-Classic, the Spot fleet launches the instances in EC2-Classic in the lowest-priced Availability Zone. Note that the price you pay will not exceed the specified Spot price for the request.** ``` $sg = New-Object Amazon.EC2.Model.GroupIdentifier $sg.GroupId = "sg-12345678" $lc = New-Object Amazon.EC2.Model.SpotFleetLaunchSpecification $lc.ImageId = "ami-12345678" $lc.InstanceType = "m3.medium" $lc.SecurityGroups.Add($sg) Request-EC2SpotFleet -SpotFleetRequestConfig_SpotPrice 0.04 ` -SpotFleetRequestConfig_TargetCapacity 2 ` -SpotFleetRequestConfig_IamFleetRole arn:aws:iam::123456789012:role/my-spot-fleet-role ` -SpotFleetRequestConfig_LaunchSpecification $lc ``` + For API details, see [RequestSpotFleet](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `RequestSpotInstances` with a CLI The following code examples show how to use `RequestSpotInstances`. ------ #### [ CLI ] **AWS CLI** **To request Spot Instances** This example command creates a one-time Spot Instance request for five instances in the specified Availability Zone. If your account supports EC2-VPC only, Amazon EC2 launches the instances in the default subnet of the specified Availability Zone. If your account supports EC2-Classic, Amazon EC2 launches the instances in EC2-Classic in the specified Availability Zone. Command: ``` aws ec2 request-spot-instances --spot-price "0.03" --instance-count 5 --type "one-time" --launch-specification file://specification.json ``` Specification.json: ``` { "ImageId": "ami-1a2b3c4d", "KeyName": "my-key-pair", "SecurityGroupIds": [ "sg-1a2b3c4d" ], "InstanceType": "m3.medium", "Placement": { "AvailabilityZone": "us-west-2a" }, "IamInstanceProfile": { "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role" } } ``` Output: ``` { "SpotInstanceRequests": [ { "Status": { "UpdateTime": "2014-03-25T20:54:21.000Z", "Code": "pending-evaluation", "Message": "Your Spot request has been submitted for review, and is pending evaluation." }, "ProductDescription": "Linux/UNIX", "SpotInstanceRequestId": "sir-df6f405d", "State": "open", "LaunchSpecification": { "Placement": { "AvailabilityZone": "us-west-2a" }, "ImageId": "ami-1a2b3c4d", "KeyName": "my-key-pair", "SecurityGroups": [ { "GroupName": "my-security-group", "GroupId": "sg-1a2b3c4d" } ], "Monitoring": { "Enabled": false }, "IamInstanceProfile": { "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role" }, "InstanceType": "m3.medium" }, "Type": "one-time", "CreateTime": "2014-03-25T20:54:20.000Z", "SpotPrice": "0.050000" }, ... ] } ``` This example command creates a one-time Spot Instance request for five instances in the specified subnet. Amazon EC2 launches the instances in the specified subnet. If the VPC is a nondefault VPC, the instances do not receive a public IP address by default. Command: ``` aws ec2 request-spot-instances --spot-price "0.050" --instance-count 5 --type "one-time" --launch-specification file://specification.json ``` Specification.json: ``` { "ImageId": "ami-1a2b3c4d", "SecurityGroupIds": [ "sg-1a2b3c4d" ], "InstanceType": "m3.medium", "SubnetId": "subnet-1a2b3c4d", "IamInstanceProfile": { "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role" } } ``` Output: ``` { "SpotInstanceRequests": [ { "Status": { "UpdateTime": "2014-03-25T22:21:58.000Z", "Code": "pending-evaluation", "Message": "Your Spot request has been submitted for review, and is pending evaluation." }, "ProductDescription": "Linux/UNIX", "SpotInstanceRequestId": "sir-df6f405d", "State": "open", "LaunchSpecification": { "Placement": { "AvailabilityZone": "us-west-2a" } "ImageId": "ami-1a2b3c4d" "SecurityGroups": [ { "GroupName": "my-security-group", "GroupID": "sg-1a2b3c4d" } ] "SubnetId": "subnet-1a2b3c4d", "Monitoring": { "Enabled": false }, "IamInstanceProfile": { "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role" }, "InstanceType": "m3.medium", }, "Type": "one-time", "CreateTime": "2014-03-25T22:21:58.000Z", "SpotPrice": "0.050000" }, ... ] } ``` This example assigns a public IP address to the Spot Instances that you launch in a nondefault VPC. Note that when you specify a network interface, you must include the subnet ID and security group ID using the network interface. Command: ``` aws ec2 request-spot-instances --spot-price "0.050" --instance-count 1 --type "one-time" --launch-specification file://specification.json ``` Specification.json: ``` { "ImageId": "ami-1a2b3c4d", "KeyName": "my-key-pair", "InstanceType": "m3.medium", "NetworkInterfaces": [ { "DeviceIndex": 0, "SubnetId": "subnet-1a2b3c4d", "Groups": [ "sg-1a2b3c4d" ], "AssociatePublicIpAddress": true } ], "IamInstanceProfile": { "Arn": "arn:aws:iam::123456789012:instance-profile/my-iam-role" } } ``` + For API details, see [RequestSpotInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/request-spot-instances.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example requests a one-time Spot instance in the specified subnet. Note that the security group must be created for the VPC that contains the specified subnet, and it must be specified by ID using the network interface. When you specify a network interface, you must include the subnet ID using the network interface.** ``` $n = New-Object Amazon.EC2.Model.InstanceNetworkInterfaceSpecification $n.DeviceIndex = 0 $n.SubnetId = "subnet-12345678" $n.Groups.Add("sg-12345678") Request-EC2SpotInstance -InstanceCount 1 -SpotPrice 0.050 -Type one-time ` -IamInstanceProfile_Arn arn:aws:iam::123456789012:instance-profile/my-iam-role ` -LaunchSpecification_ImageId ami-12345678 ` -LaunchSpecification_InstanceType m3.medium ` -LaunchSpecification_NetworkInterface $n ``` **Output:** ``` ActualBlockHourlyPrice : AvailabilityZoneGroup : BlockDurationMinutes : 0 CreateTime : 12/26/2015 7:44:10 AM Fault : InstanceId : LaunchedAvailabilityZone : LaunchGroup : LaunchSpecification : Amazon.EC2.Model.LaunchSpecification ProductDescription : Linux/UNIX SpotInstanceRequestId : sir-12345678 SpotPrice : 0.050000 State : open Status : Amazon.EC2.Model.SpotInstanceStatus Tags : {} Type : one-time ``` + For API details, see [RequestSpotInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example requests a one-time Spot instance in the specified subnet. Note that the security group must be created for the VPC that contains the specified subnet, and it must be specified by ID using the network interface. When you specify a network interface, you must include the subnet ID using the network interface.** ``` $n = New-Object Amazon.EC2.Model.InstanceNetworkInterfaceSpecification $n.DeviceIndex = 0 $n.SubnetId = "subnet-12345678" $n.Groups.Add("sg-12345678") Request-EC2SpotInstance -InstanceCount 1 -SpotPrice 0.050 -Type one-time ` -IamInstanceProfile_Arn arn:aws:iam::123456789012:instance-profile/my-iam-role ` -LaunchSpecification_ImageId ami-12345678 ` -LaunchSpecification_InstanceType m3.medium ` -LaunchSpecification_NetworkInterface $n ``` **Output:** ``` ActualBlockHourlyPrice : AvailabilityZoneGroup : BlockDurationMinutes : 0 CreateTime : 12/26/2015 7:44:10 AM Fault : InstanceId : LaunchedAvailabilityZone : LaunchGroup : LaunchSpecification : Amazon.EC2.Model.LaunchSpecification ProductDescription : Linux/UNIX SpotInstanceRequestId : sir-12345678 SpotPrice : 0.050000 State : open Status : Amazon.EC2.Model.SpotInstanceStatus Tags : {} Type : one-time ``` + For API details, see [RequestSpotInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ResetImageAttribute` with a CLI The following code examples show how to use `ResetImageAttribute`. ------ #### [ CLI ] **AWS CLI** **To reset the launchPermission attribute** This example resets the `launchPermission` attribute for the specified AMI to its default value. By default, AMIs are private. If the command succeeds, no output is returned. Command: ``` aws ec2 reset-image-attribute --image-id ami-5731123e --attribute launchPermission ``` + For API details, see [ResetImageAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reset-image-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example resets the 'launchPermission' attribute to its default value. By default, AMIs are private.** ``` Reset-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission ``` + For API details, see [ResetImageAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example resets the 'launchPermission' attribute to its default value. By default, AMIs are private.** ``` Reset-EC2ImageAttribute -ImageId ami-12345678 -Attribute launchPermission ``` + For API details, see [ResetImageAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ResetInstanceAttribute` with a CLI The following code examples show how to use `ResetInstanceAttribute`. ------ #### [ CLI ] **AWS CLI** **To reset the sourceDestCheck attribute** This example resets the `sourceDestCheck` attribute of the specified instance. The instance must be in a VPC. If the command succeeds, no output is returned. Command: ``` aws ec2 reset-instance-attribute --instance-id i-1234567890abcdef0 --attribute sourceDestCheck ``` **To reset the kernel attribute** This example resets the `kernel` attribute of the specified instance. The instance must be in the `stopped` state. If the command succeeds, no output is returned. Command: ``` aws ec2 reset-instance-attribute --instance-id i-1234567890abcdef0 --attribute kernel ``` **To reset the ramdisk attribute** This example resets the `ramdisk` attribute of the specified instance. The instance must be in the `stopped` state. If the command succeeds, no output is returned. Command: ``` aws ec2 reset-instance-attribute --instance-id i-1234567890abcdef0 --attribute ramdisk ``` + For API details, see [ResetInstanceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reset-instance-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example resets the 'sriovNetSupport' attribute for the specified instance.** ``` Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sriovNetSupport ``` **Example 2: This example resets the 'ebsOptimized' attribute for the specified instance.** ``` Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute ebsOptimized ``` **Example 3: This example resets the 'sourceDestCheck' attribute for the specified instance.** ``` Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sourceDestCheck ``` **Example 4: This example resets the 'disableApiTermination' attribute for the specified instance.** ``` Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute disableApiTermination ``` **Example 5: This example resets the 'instanceInitiatedShutdownBehavior' attribute for the specified instance.** ``` Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceInitiatedShutdownBehavior ``` + For API details, see [ResetInstanceAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example resets the 'sriovNetSupport' attribute for the specified instance.** ``` Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sriovNetSupport ``` **Example 2: This example resets the 'ebsOptimized' attribute for the specified instance.** ``` Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute ebsOptimized ``` **Example 3: This example resets the 'sourceDestCheck' attribute for the specified instance.** ``` Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute sourceDestCheck ``` **Example 4: This example resets the 'disableApiTermination' attribute for the specified instance.** ``` Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute disableApiTermination ``` **Example 5: This example resets the 'instanceInitiatedShutdownBehavior' attribute for the specified instance.** ``` Reset-EC2InstanceAttribute -InstanceId i-12345678 -Attribute instanceInitiatedShutdownBehavior ``` + For API details, see [ResetInstanceAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ResetNetworkInterfaceAttribute` with a CLI The following code examples show how to use `ResetNetworkInterfaceAttribute`. ------ #### [ CLI ] **AWS CLI** **To reset a network interface attribute** The following `reset-network-interface-attribute` example resets the value of the source/destination checking attribute to `true`. ``` aws ec2 reset-network-interface-attribute \ --network-interface-id eni-686ea200 \ --source-dest-check ``` This command produces no output. + For API details, see [ResetNetworkInterfaceAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reset-network-interface-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example resets source/destination checking for the specified network interface.** ``` Reset-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -SourceDestCheck ``` + For API details, see [ResetNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example resets source/destination checking for the specified network interface.** ``` Reset-EC2NetworkInterfaceAttribute -NetworkInterfaceId eni-1a2b3c4d -SourceDestCheck ``` + For API details, see [ResetNetworkInterfaceAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `ResetSnapshotAttribute` with a CLI The following code examples show how to use `ResetSnapshotAttribute`. ------ #### [ CLI ] **AWS CLI** **To reset a snapshot attribute** This example resets the create volume permissions for snapshot `snap-1234567890abcdef0`. If the command succeeds, no output is returned. Command: ``` aws ec2 reset-snapshot-attribute --snapshot-id snap-1234567890abcdef0 --attribute createVolumePermission ``` + For API details, see [ResetSnapshotAttribute](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/reset-snapshot-attribute.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example resets the specified attribute of the specified snapshot.** ``` Reset-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission ``` + For API details, see [ResetSnapshotAttribute](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example resets the specified attribute of the specified snapshot.** ``` Reset-EC2SnapshotAttribute -SnapshotId snap-12345678 -Attribute CreateVolumePermission ``` + For API details, see [ResetSnapshotAttribute](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `RevokeSecurityGroupEgress` with a CLI The following code examples show how to use `RevokeSecurityGroupEgress`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) ------ #### [ CLI ] **AWS CLI** **Example 1: To remove the rule that allows outbound traffic to a specific address range** The following `revoke-security-group-egress` example command removes the rule that grants access to the specified address ranges on TCP port 80. ``` aws ec2 revoke-security-group-egress \ --group-id sg-026c12253ce15eff7 \ --ip-permissions [{IpProtocol=tcp,FromPort=80,ToPort=80,IpRanges=[{CidrIp=10.0.0.0/16}] ``` This command produces no output. For more information, see [Security groups](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html) in the *Amazon EC2 User Guide*. **Example 2: To remove the rule that allows outbound traffic to a specific security group** The following `revoke-security-group-egress` example command removes the rule that grants access to the specified security group on TCP port 80. ``` aws ec2 revoke-security-group-egress \ --group-id sg-026c12253ce15eff7 \ --ip-permissions '[{"IpProtocol": "tcp", "FromPort": 443, "ToPort": 443,"UserIdGroupPairs": [{"GroupId": "sg-06df23a01ff2df86d"}]}]' ``` This command produces no output. For more information, see [Security groups](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html) in the *Amazon EC2 User Guide*. + For API details, see [RevokeSecurityGroupEgress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/revoke-security-group-egress.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example removes the rule for the specified security group for EC2-VPC. This revokes access to the specified IP address range on TCP port 80. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip = @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; IpRanges="203.0.113.0/24" } Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip ``` **Example 2: With PowerShell version 2, you must use New-Object to create the IpPermission object.** ``` $ip = New-Object Amazon.EC2.Model.IpPermission $ip.IpProtocol = "tcp" $ip.FromPort = 80 $ip.ToPort = 80 $ip.IpRanges.Add("203.0.113.0/24") Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip ``` **Example 3: This example revokes access to the specified source security group on TCP port 80.** ``` $ug = New-Object Amazon.EC2.Model.UserIdGroupPair $ug.GroupId = "sg-1a2b3c4d" $ug.UserId = "123456789012" Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; UserIdGroupPairs=$ug } ) ``` + For API details, see [RevokeSecurityGroupEgress](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example removes the rule for the specified security group for EC2-VPC. This revokes access to the specified IP address range on TCP port 80. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip = @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; IpRanges="203.0.113.0/24" } Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip ``` **Example 2: With PowerShell version 2, you must use New-Object to create the IpPermission object.** ``` $ip = New-Object Amazon.EC2.Model.IpPermission $ip.IpProtocol = "tcp" $ip.FromPort = 80 $ip.ToPort = 80 $ip.IpRanges.Add("203.0.113.0/24") Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission $ip ``` **Example 3: This example revokes access to the specified source security group on TCP port 80.** ``` $ug = New-Object Amazon.EC2.Model.UserIdGroupPair $ug.GroupId = "sg-1a2b3c4d" $ug.UserId = "123456789012" Revoke-EC2SecurityGroupEgress -GroupId sg-12345678 -IpPermission @( @{ IpProtocol="tcp"; FromPort="80"; ToPort="80"; UserIdGroupPairs=$ug } ) ``` + For API details, see [RevokeSecurityGroupEgress](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `RevokeSecurityGroupIngress` with a CLI The following code examples show how to use `RevokeSecurityGroupIngress`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Getting started with Amazon DocumentDB](example_docdb_GettingStarted_025_section.md) + [Getting started with Amazon ElastiCache](example_ec2_GettingStarted_065_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) ------ #### [ CLI ] **AWS CLI** **Example 1: To remove a rule from a security group** The following `revoke-security-group-ingress` example removes TCP port 22 access for the `203.0.113.0/24` address range from the specified security group for a default VPC. ``` aws ec2 revoke-security-group-ingress \ --group-name mySecurityGroup --protocol tcp \ --port 22 \ --cidr 203.0.113.0/24 ``` This command produces no output if it succeeds. For more information, see [Security groups](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html) in the *Amazon EC2 User Guide*. **Example 2: To remove a rule using the IP permissions set** The following `revoke-security-group-ingress` example uses the `ip-permissions` parameter to remove an inbound rule that allows the ICMP message `Destination Unreachable: Fragmentation Needed and Don't Fragment was Set` (Type 3, Code 4). ``` aws ec2 revoke-security-group-ingress \ --group-id sg-026c12253ce15eff7 \ --ip-permissions IpProtocol=icmp,FromPort=3,ToPort=4,IpRanges=[{CidrIp=0.0.0.0/0}] ``` This command produces no output if it succeeds. For more information, see [Security groups](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html) in the *Amazon EC2 User Guide*. + For API details, see [RevokeSecurityGroupIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/revoke-security-group-ingress.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example revokes access to TCP port 22 from the specified address range for the specified security group for EC2-VPC. Note that you must identify security groups for EC2-VPC using the security group ID not the security group name. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.0/24" } Revoke-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission $ip ``` **Example 2: With PowerShell version 2, you must use New-Object to create the IpPermission object.** ``` $ip = New-Object Amazon.EC2.Model.IpPermission $ip.IpProtocol = "tcp" $ip.FromPort = 22 $ip.ToPort = 22 $ip.IpRanges.Add("203.0.113.0/24") Revoke-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission $ip ``` **Example 3: This example revokes access to TCP port 22 from the specified address range for the specified security group for EC2-Classic. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.0/24" } Revoke-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission $ip ``` **Example 4: With PowerShell version 2, you must use New-Object to create the IpPermission object.** ``` $ip = New-Object Amazon.EC2.Model.IpPermission $ip.IpProtocol = "tcp" $ip.FromPort = 22 $ip.ToPort = 22 $ip.IpRanges.Add("203.0.113.0/24") Revoke-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission $ip ``` + For API details, see [RevokeSecurityGroupIngress](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example revokes access to TCP port 22 from the specified address range for the specified security group for EC2-VPC. Note that you must identify security groups for EC2-VPC using the security group ID not the security group name. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.0/24" } Revoke-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission $ip ``` **Example 2: With PowerShell version 2, you must use New-Object to create the IpPermission object.** ``` $ip = New-Object Amazon.EC2.Model.IpPermission $ip.IpProtocol = "tcp" $ip.FromPort = 22 $ip.ToPort = 22 $ip.IpRanges.Add("203.0.113.0/24") Revoke-EC2SecurityGroupIngress -GroupId sg-12345678 -IpPermission $ip ``` **Example 3: This example revokes access to TCP port 22 from the specified address range for the specified security group for EC2-Classic. The syntax used by this example requires PowerShell version 3 or higher.** ``` $ip = @{ IpProtocol="tcp"; FromPort="22"; ToPort="22"; IpRanges="203.0.113.0/24" } Revoke-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission $ip ``` **Example 4: With PowerShell version 2, you must use New-Object to create the IpPermission object.** ``` $ip = New-Object Amazon.EC2.Model.IpPermission $ip.IpProtocol = "tcp" $ip.FromPort = 22 $ip.ToPort = 22 $ip.IpRanges.Add("203.0.113.0/24") Revoke-EC2SecurityGroupIngress -GroupName "my-security-group" -IpPermission $ip ``` + For API details, see [RevokeSecurityGroupIngress](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `RunInstances` with an AWS SDK or CLI The following code examples show how to use `RunInstances`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Creating an Amazon ECS service for the EC2 launch type](example_ecs_GettingStarted_018_section.md) + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Get started with Marketplace Buyer](example_ec2_GettingStarted_030_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) + [Run CPU stress tests on EC2 instances using FIS](example_iam_GettingStarted_069_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Create and run an EC2 instance. /// /// The image Id of the image used as a basis for the /// EC2 instance. /// The instance type of the EC2 instance to create. /// The name of the key pair to associate with the /// instance. /// The Id of the Amazon EC2 security group that will be /// allowed to interact with the new EC2 instance. /// The instance Id of the new EC2 instance. public async Task RunInstances(string imageId, string instanceType, string keyName, string groupId) { try { var request = new RunInstancesRequest { ImageId = imageId, InstanceType = instanceType, KeyName = keyName, MinCount = 1, MaxCount = 1, SecurityGroupIds = new List { groupId } }; var response = await _amazonEC2.RunInstancesAsync(request); var instanceId = response.Reservation.Instances[0].InstanceId; Console.Write("Waiting for the instance to start."); await WaitForInstanceState(instanceId, InstanceStateName.Running); return instanceId; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidGroupId.NotFound") { _logger.LogError( $"GroupId {groupId} was not found. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while running the instance.: {ex.Message}"); throw; } } ``` + For API details, see [RunInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/RunInstances) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_run_instances # # This function launches one or more Amazon Elastic Compute Cloud (Amazon EC2) instances. # # Parameters: # -i image_id - The ID of the Amazon Machine Image (AMI) to use. # -t instance_type - The instance type to use (e.g., t2.micro). # -k key_pair_name - The name of the key pair to use. # -s security_group_id - The ID of the security group to use. # -c count - The number of instances to launch (default: 1). # -h - Display help. # # Returns: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_run_instances() { local image_id instance_type key_pair_name security_group_id count response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_run_instances" echo "Launches one or more Amazon Elastic Compute Cloud (Amazon EC2) instances." echo " -i image_id - The ID of the Amazon Machine Image (AMI) to use." echo " -t instance_type - The instance type to use (e.g., t2.micro)." echo " -k key_pair_name - The name of the key pair to use." echo " -s security_group_id - The ID of the security group to use." echo " -c count - The number of instances to launch (default: 1)." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:t:k:s:c:h" option; do case "${option}" in i) image_id="${OPTARG}" ;; t) instance_type="${OPTARG}" ;; k) key_pair_name="${OPTARG}" ;; s) security_group_id="${OPTARG}" ;; c) count="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$image_id" ]]; then errecho "ERROR: You must provide an Amazon Machine Image (AMI) ID with the -i parameter." usage return 1 fi if [[ -z "$instance_type" ]]; then errecho "ERROR: You must provide an instance type with the -t parameter." usage return 1 fi if [[ -z "$key_pair_name" ]]; then errecho "ERROR: You must provide a key pair name with the -k parameter." usage return 1 fi if [[ -z "$security_group_id" ]]; then errecho "ERROR: You must provide a security group ID with the -s parameter." usage return 1 fi if [[ -z "$count" ]]; then count=1 fi response=$(aws ec2 run-instances \ --image-id "$image_id" \ --instance-type "$instance_type" \ --key-name "$key_pair_name" \ --security-group-ids "$security_group_id" \ --count "$count" \ --query 'Instances[*].[InstanceId]' \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports run-instances operation failed.$response" return 1 } echo "$response" return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [RunInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/RunInstances) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Launch an Amazon Elastic Compute Cloud (Amazon EC2) instance. /*! \param instanceName: A name for the EC2 instance. \param amiId: An Amazon Machine Image (AMI) identifier. \param[out] instanceID: String to return the instance ID. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::runInstance(const Aws::String &instanceName, const Aws::String &amiId, Aws::String &instanceID, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::RunInstancesRequest runRequest; runRequest.SetImageId(amiId); runRequest.SetInstanceType(Aws::EC2::Model::InstanceType::t1_micro); runRequest.SetMinCount(1); runRequest.SetMaxCount(1); Aws::EC2::Model::RunInstancesOutcome runOutcome = ec2Client.RunInstances( runRequest); if (!runOutcome.IsSuccess()) { std::cerr << "Failed to launch EC2 instance " << instanceName << " based on ami " << amiId << ":" << runOutcome.GetError().GetMessage() << std::endl; return false; } const Aws::Vector &instances = runOutcome.GetResult().GetInstances(); if (instances.empty()) { std::cerr << "Failed to launch EC2 instance " << instanceName << " based on ami " << amiId << ":" << runOutcome.GetError().GetMessage() << std::endl; return false; } instanceID = instances[0].GetInstanceId(); return true; } ``` + For API details, see [RunInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/RunInstances) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To launch an instance into a default subnet** The following `run-instances` example launches a single instance of type `t2.micro` into the default subnet for the current Region and associates it with the default subnet for the default VPC for the Region. The key pair is optional if you do not plan to connect to your instance using SSH (Linux) or RDP (Windows). ``` aws ec2 run-instances \ --image-id ami-0abcdef1234567890 \ --instance-type t2.micro \ --key-name MyKeyPair ``` Output: ``` { "Instances": [ { "AmiLaunchIndex": 0, "ImageId": "ami-0abcdef1234567890", "InstanceId": "i-1231231230abcdef0", "InstanceType": "t2.micro", "KeyName": "MyKeyPair", "LaunchTime": "2018-05-10T08:05:20.000Z", "Monitoring": { "State": "disabled" }, "Placement": { "AvailabilityZone": "us-east-2a", "GroupName": "", "Tenancy": "default" }, "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal", "PrivateIpAddress": "10.0.0.157", "ProductCodes": [], "PublicDnsName": "", "State": { "Code": 0, "Name": "pending" }, "StateTransitionReason": "", "SubnetId": "subnet-04a636d18e83cfacb", "VpcId": "vpc-1234567890abcdef0", "Architecture": "x86_64", "BlockDeviceMappings": [], "ClientToken": "", "EbsOptimized": false, "Hypervisor": "xen", "NetworkInterfaces": [ { "Attachment": { "AttachTime": "2018-05-10T08:05:20.000Z", "AttachmentId": "eni-attach-0e325c07e928a0405", "DeleteOnTermination": true, "DeviceIndex": 0, "Status": "attaching" }, "Description": "", "Groups": [ { "GroupName": "MySecurityGroup", "GroupId": "sg-0598c7d356eba48d7" } ], "Ipv6Addresses": [], "MacAddress": "0a:ab:58:e0:67:e2", "NetworkInterfaceId": "eni-0c0a29997760baee7", "OwnerId": "123456789012", "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal", "PrivateIpAddress": "10.0.0.157", "PrivateIpAddresses": [ { "Primary": true, "PrivateDnsName": "ip-10-0-0-157.us-east-2.compute.internal", "PrivateIpAddress": "10.0.0.157" } ], "SourceDestCheck": true, "Status": "in-use", "SubnetId": "subnet-04a636d18e83cfacb", "VpcId": "vpc-1234567890abcdef0", "InterfaceType": "interface" } ], "RootDeviceName": "/dev/xvda", "RootDeviceType": "ebs", "SecurityGroups": [ { "GroupName": "MySecurityGroup", "GroupId": "sg-0598c7d356eba48d7" } ], "SourceDestCheck": true, "StateReason": { "Code": "pending", "Message": "pending" }, "Tags": [], "VirtualizationType": "hvm", "CpuOptions": { "CoreCount": 1, "ThreadsPerCore": 1 }, "CapacityReservationSpecification": { "CapacityReservationPreference": "open" }, "MetadataOptions": { "State": "pending", "HttpTokens": "optional", "HttpPutResponseHopLimit": 1, "HttpEndpoint": "enabled" } } ], "OwnerId": "123456789012", "ReservationId": "r-02a3f596d91211712" } ``` **Example 2: To launch an instance into a non-default subnet and add a public IP address** The following `run-instances` example requests a public IP address for an instance that you're launching into a nondefault subnet. The instance is associated with the specified security group. ``` aws ec2 run-instances \ --image-id ami-0abcdef1234567890 \ --instance-type t2.micro \ --subnet-id subnet-08fc749671b2d077c \ --security-group-ids sg-0b0384b66d7d692f9 \ --associate-public-ip-address \ --key-name MyKeyPair ``` For an example of the output for `run-instances`, see Example 1. **Example 3: To launch an instance with additional volumes** The following `run-instances` example uses a block device mapping, specified in mapping.json, to attach additional volumes at launch. A block device mapping can specify EBS volumes, instance store volumes, or both EBS volumes and instance store volumes. ``` aws ec2 run-instances \ --image-id ami-0abcdef1234567890 \ --instance-type t2.micro \ --subnet-id subnet-08fc749671b2d077c \ --security-group-ids sg-0b0384b66d7d692f9 \ --key-name MyKeyPair \ --block-device-mappings file://mapping.json ``` Contents of `mapping.json`. This example adds `/dev/sdh` an empty EBS volume with a size of 100 GiB. ``` [ { "DeviceName": "/dev/sdh", "Ebs": { "VolumeSize": 100 } } ] ``` Contents of `mapping.json`. This example adds `ephemeral1` as an instance store volume. ``` [ { "DeviceName": "/dev/sdc", "VirtualName": "ephemeral1" } ] ``` For an example of the output for `run-instances`, see Example 1. For more information about block device mappings, see [Block device mapping](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/block-device-mapping-concepts.html) in the *Amazon EC2 User Guide*. **Example 4: To launch an instance and add tags on creation** The following `run-instances` example adds a tag with a key of `webserver` and value of `production` to the instance. The command also applies a tag with a key of `cost-center` and a value of `cc123` to any EBS volume that's created (in this case, the root volume). ``` aws ec2 run-instances \ --image-id ami-0abcdef1234567890 \ --instance-type t2.micro \ --count 1 \ --subnet-id subnet-08fc749671b2d077c \ --key-name MyKeyPair \ --security-group-ids sg-0b0384b66d7d692f9 \ --tag-specifications 'ResourceType=instance,Tags=[{Key=webserver,Value=production}]' 'ResourceType=volume,Tags=[{Key=cost-center,Value=cc123}]' ``` For an example of the output for `run-instances`, see Example 1. **Example 5: To launch an instance with user data** The following `run-instances` example passes user data in a file called `my_script.txt` that contains a configuration script for your instance. The script runs at launch. ``` aws ec2 run-instances \ --image-id ami-0abcdef1234567890 \ --instance-type t2.micro \ --count 1 \ --subnet-id subnet-08fc749671b2d077c \ --key-name MyKeyPair \ --security-group-ids sg-0b0384b66d7d692f9 \ --user-data file://my_script.txt ``` For an example of the output for `run-instances`, see Example 1. For more information about instance user data, see [Working with instance user data](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instancedata-add-user-data.html) in the *Amazon EC2 User Guide*. **Example 6: To launch a burstable performance instance** The following `run-instances` example launches a t2.micro instance with the `unlimited` credit option. When you launch a T2 instance, if you do not specify `--credit-specification`, the default is the `standard` credit option. When you launch a T3 instance, the default is the `unlimited` credit option. ``` aws ec2 run-instances \ --image-id ami-0abcdef1234567890 \ --instance-type t2.micro \ --count 1 \ --subnet-id subnet-08fc749671b2d077c \ --key-name MyKeyPair \ --security-group-ids sg-0b0384b66d7d692f9 \ --credit-specification CpuCredits=unlimited ``` For an example of the output for `run-instances`, see Example 1. For more information about burstable performance instances, see [Burstable performance instances](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/burstable-performance-instances.html) in the *Amazon EC2 User Guide*. + For API details, see [RunInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/run-instances.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Runs an EC2 instance asynchronously. * * @param instanceType The instance type to use for the EC2 instance. * @param keyName The name of the key pair to associate with the EC2 instance. * @param groupName The name of the security group to associate with the EC2 instance. * @param amiId The ID of the Amazon Machine Image (AMI) to use for the EC2 instance. * @return A {@link CompletableFuture} that completes with the ID of the started EC2 instance. * @throws RuntimeException If there is an error running the EC2 instance. */ public CompletableFuture runInstanceAsync(String instanceType, String keyName, String groupName, String amiId) { RunInstancesRequest runRequest = RunInstancesRequest.builder() .instanceType(instanceType) .keyName(keyName) .securityGroups(groupName) .maxCount(1) .minCount(1) .imageId(amiId) .build(); CompletableFuture responseFuture = getAsyncClient().runInstances(runRequest); return responseFuture.thenCompose(response -> { String instanceIdVal = response.instances().get(0).instanceId(); System.out.println("Going to start an EC2 instance and use a waiter to wait for it to be in running state"); return getAsyncClient().waiter() .waitUntilInstanceExists(r -> r.instanceIds(instanceIdVal)) .thenCompose(waitResponse -> getAsyncClient().waiter() .waitUntilInstanceRunning(r -> r.instanceIds(instanceIdVal)) .thenApply(runningResponse -> instanceIdVal)); }).exceptionally(throwable -> { // Handle any exceptions that occurred during the async call throw new RuntimeException("Failed to run EC2 instance: " + throwable.getMessage(), throwable); }); } ``` + For API details, see [RunInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/RunInstances) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { EC2Client, RunInstancesCommand } from "@aws-sdk/client-ec2"; /** * Create new EC2 instances. * @param {{ * keyName: string, * securityGroupIds: string[], * imageId: string, * instanceType: import('@aws-sdk/client-ec2')._InstanceType, * minCount?: number, * maxCount?: number }} options */ export const main = async ({ keyName, securityGroupIds, imageId, instanceType, minCount = "1", maxCount = "1", }) => { const client = new EC2Client({}); minCount = Number.parseInt(minCount); maxCount = Number.parseInt(maxCount); const command = new RunInstancesCommand({ // Your key pair name. KeyName: keyName, // Your security group. SecurityGroupIds: securityGroupIds, // An Amazon Machine Image (AMI). There are multiple ways to search for AMIs. For more information, see: // https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/finding-an-ami.html ImageId: imageId, // An instance type describing the resources provided to your instance. There are multiple // ways to search for instance types. For more information see: // https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-discovery.html InstanceType: instanceType, // Availability Zones have capacity limitations that may impact your ability to launch instances. // The `RunInstances` operation will only succeed if it can allocate at least the `MinCount` of instances. // However, EC2 will attempt to launch up to the `MaxCount` of instances, even if the full request cannot be satisfied. // If you need a specific number of instances, use `MinCount` and `MaxCount` set to the same value. // If you want to launch up to a certain number of instances, use `MaxCount` and let EC2 provision as many as possible. // If you require a minimum number of instances, but do not want to exceed a maximum, use both `MinCount` and `MaxCount`. MinCount: minCount, MaxCount: maxCount, }); try { const { Instances } = await client.send(command); const instanceList = Instances.map( (instance) => `• ${instance.InstanceId}`, ).join("\n"); console.log(`Launched instances:\n${instanceList}`); } catch (caught) { if (caught instanceof Error && caught.name === "ResourceCountExceeded") { console.warn(`${caught.message}`); } else { throw caught; } } }; ``` + For API details, see [RunInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/RunInstancesCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun createEC2Instance( name: String, amiId: String, ): String? { val request = RunInstancesRequest { imageId = amiId instanceType = InstanceType.T1Micro maxCount = 1 minCount = 1 } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.runInstances(request) val instanceId = response.instances?.get(0)?.instanceId val tag = Tag { key = "Name" value = name } val requestTags = CreateTagsRequest { resources = listOf(instanceId.toString()) tags = listOf(tag) } ec2.createTags(requestTags) println("Successfully started EC2 Instance $instanceId based on AMI $amiId") return instanceId } } ``` + For API details, see [RunInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example launches a single instance of the specified AMI in EC2-Classic or a default VPC.** ``` New-EC2Instance -ImageId ami-12345678 -MinCount 1 -MaxCount 1 -InstanceType m3.medium -KeyName my-key-pair -SecurityGroup my-security-group ``` **Example 2: This example launches a single instance of the specified AMI in a VPC.** ``` New-EC2Instance -ImageId ami-12345678 -MinCount 1 -MaxCount 1 -SubnetId subnet-12345678 -InstanceType t2.micro -KeyName my-key-pair -SecurityGroupId sg-12345678 ``` **Example 3: To add an EBS volume or an instance store volume, define a block device mapping and add it to the command. This example adds an instance store volume.** ``` $bdm = New-Object Amazon.EC2.Model.BlockDeviceMapping $bdm.VirtualName = "ephemeral0" $bdm.DeviceName = "/dev/sdf" New-EC2Instance -ImageId ami-12345678 -BlockDeviceMapping $bdm ... ``` **Example 4: To specify one of the current Windows AMIs, get its AMI ID using Get-EC2ImageByName. This example launches an instance from the current base AMI for Windows Server 2016.** ``` $ami = Get-EC2ImageByName WINDOWS_2016_BASE New-EC2Instance -ImageId $ami.ImageId ... ``` **Example 5: Launches an instance into the specified dedicated host environment.** ``` New-EC2Instance -ImageId ami-1a2b3c4d -InstanceType m4.large -KeyName my-key-pair -SecurityGroupId sg-1a2b3c4d -AvailabilityZone us-west-1a -Tenancy host -HostID h-1a2b3c4d5e6f1a2b3 ``` **Example 6: This request launches two instances and applies a tag with a key of webserver and a value of production to the instances. The request also applies a tag with a key of cost-center and a value of cc123 to the volumes that are created (in this case, the root volume for each instance).** ``` $tag1 = @{ Key="webserver"; Value="production" } $tag2 = @{ Key="cost-center"; Value="cc123" } $tagspec1 = new-object Amazon.EC2.Model.TagSpecification $tagspec1.ResourceType = "instance" $tagspec1.Tags.Add($tag1) $tagspec2 = new-object Amazon.EC2.Model.TagSpecification $tagspec2.ResourceType = "volume" $tagspec2.Tags.Add($tag2) New-EC2Instance -ImageId "ami-1a2b3c4d" -KeyName "my-key-pair" -MaxCount 2 -InstanceType "t2.large" -SubnetId "subnet-1a2b3c4d" -TagSpecification $tagspec1,$tagspec2 ``` + For API details, see [RunInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example launches a single instance of the specified AMI in EC2-Classic or a default VPC.** ``` New-EC2Instance -ImageId ami-12345678 -MinCount 1 -MaxCount 1 -InstanceType m3.medium -KeyName my-key-pair -SecurityGroup my-security-group ``` **Example 2: This example launches a single instance of the specified AMI in a VPC.** ``` New-EC2Instance -ImageId ami-12345678 -MinCount 1 -MaxCount 1 -SubnetId subnet-12345678 -InstanceType t2.micro -KeyName my-key-pair -SecurityGroupId sg-12345678 ``` **Example 3: To add an EBS volume or an instance store volume, define a block device mapping and add it to the command. This example adds an instance store volume.** ``` $bdm = New-Object Amazon.EC2.Model.BlockDeviceMapping $bdm.VirtualName = "ephemeral0" $bdm.DeviceName = "/dev/sdf" New-EC2Instance -ImageId ami-12345678 -BlockDeviceMapping $bdm ... ``` **Example 4: To specify one of the current Windows AMIs, get its AMI ID using Get-SSMLatestEC2Image. This example launches an instance from the current base AMI for Windows Server 2016.** ``` $ami = (Get-SSMLatestEC2Image -Path 'ami-windows-latest' -ImageName 'WINDOWS*2016*English*Core*BASE').Value New-EC2Instance -ImageId $ami ... ``` **Example 5: Launches an instance into the specified dedicated host environment.** ``` New-EC2Instance -ImageId ami-1a2b3c4d -InstanceType m4.large -KeyName my-key-pair -SecurityGroupId sg-1a2b3c4d -AvailabilityZone us-west-1a -Tenancy host -HostID h-1a2b3c4d5e6f1a2b3 ``` **Example 6: This request launches two instances and applies a tag with a key of webserver and a value of production to the instances. The request also applies a tag with a key of cost-center and a value of cc123 to the volumes that are created (in this case, the root volume for each instance).** ``` $tag1 = @{ Key="webserver"; Value="production" } $tag2 = @{ Key="cost-center"; Value="cc123" } $tagspec1 = new-object Amazon.EC2.Model.TagSpecification $tagspec1.ResourceType = "instance" $tagspec1.Tags.Add($tag1) $tagspec2 = new-object Amazon.EC2.Model.TagSpecification $tagspec2.ResourceType = "volume" $tagspec2.Tags.Add($tag2) New-EC2Instance -ImageId "ami-1a2b3c4d" -KeyName "my-key-pair" -MaxCount 2 -InstanceType "t2.large" -SubnetId "subnet-1a2b3c4d" -TagSpecification $tagspec1,$tagspec2 ``` **Example 7: This example validates permissions for launching an EC2 instance using the DryRun parameter without actually creating the instance. Note: This throws an exception if succeeded which is the expected behavior. ** ``` New-EC2Instance -ImageId 'ami-12345678' -InstanceType 't2.micro' -KeyName 'my-key-pair' -Region 'us-west-2' -DryRun $true ``` + For API details, see [RunInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class EC2InstanceWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface.""" def __init__( self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None ) -> None: """ Initializes the EC2InstanceWrapper with an EC2 client and optional instances. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that wrap instance actions. """ self.ec2_client = ec2_client self.instances = instances or [] @classmethod def from_client(cls) -> "EC2InstanceWrapper": """ Creates an EC2InstanceWrapper instance with a default EC2 client. :return: An instance of EC2InstanceWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def create( self, image_id: str, instance_type: str, key_pair_name: str, security_group_ids: Optional[List[str]] = None, ) -> List[Dict[str, Any]]: """ Creates a new EC2 instance in the default VPC of the current account. The instance starts immediately after it is created. :param image_id: The ID of the Amazon Machine Image (AMI) to use for the instance. :param instance_type: The type of instance to create, such as 't2.micro'. :param key_pair_name: The name of the key pair to use for SSH access. :param security_group_ids: A list of security group IDs to associate with the instance. If not specified, the default security group of the VPC is used. :return: A list of dictionaries representing Boto3 Instance objects representing the newly created instances. """ try: instance_params = { "ImageId": image_id, "InstanceType": instance_type, "KeyName": key_pair_name, } if security_group_ids is not None: instance_params["SecurityGroupIds"] = security_group_ids response = self.ec2_client.run_instances( **instance_params, MinCount=1, MaxCount=1 ) instance = response["Instances"][0] self.instances.append(instance) waiter = self.ec2_client.get_waiter("instance_running") waiter.wait(InstanceIds=[instance["InstanceId"]]) except ClientError as err: params_str = "\n\t".join( f"{key}: {value}" for key, value in instance_params.items() ) logger.error( f"Failed to complete instance creation request.\nRequest details:{params_str}" ) error_code = err.response["Error"]["Code"] if error_code == "InstanceLimitExceeded": logger.error( ( f"Insufficient capacity for instance type '{instance_type}'. " "Terminate unused instances or contact AWS Support for a limit increase." ) ) if error_code == "InsufficientInstanceCapacity": logger.error( ( f"Insufficient capacity for instance type '{instance_type}'. " "Select a different instance type or launch in a different availability zone." ) ) raise return self.instances ``` + For API details, see [RunInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/RunInstances) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn create_instance<'a>( &self, image_id: &'a str, instance_type: InstanceType, key_pair: &'a KeyPairInfo, security_groups: Vec<&'a SecurityGroup>, ) -> Result { let run_instances = self .client .run_instances() .image_id(image_id) .instance_type(instance_type) .key_name( key_pair .key_name() .ok_or_else(|| EC2Error::new("Missing key name when launching instance"))?, ) .set_security_group_ids(Some( security_groups .iter() .filter_map(|sg| sg.group_id.clone()) .collect(), )) .min_count(1) .max_count(1) .send() .await?; if run_instances.instances().is_empty() { return Err(EC2Error::new("Failed to create instance")); } let instance_id = run_instances.instances()[0].instance_id().unwrap(); let response = self .client .create_tags() .resources(instance_id) .tags( Tag::builder() .key("Name") .value("From SDK Examples") .build(), ) .send() .await; match response { Ok(_) => tracing::info!("Created {instance_id} and applied tags."), Err(err) => { tracing::info!("Error applying tags to {instance_id}: {err:?}"); return Err(err.into()); } } tracing::info!("Instance is created."); Ok(instance_id.to_string()) } ``` + For API details, see [RunInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.run_instances) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` " Create tags for resource created during instance launch. " DATA lt_tagspecifications TYPE /aws1/cl_ec2tagspecification=>tt_tagspecificationlist. DATA ls_tagspecifications LIKE LINE OF lt_tagspecifications. ls_tagspecifications = NEW /aws1/cl_ec2tagspecification( iv_resourcetype = 'instance' it_tags = VALUE /aws1/cl_ec2tag=>tt_taglist( ( NEW /aws1/cl_ec2tag( iv_key = 'Name' iv_value = iv_tag_value ) ) ) ). APPEND ls_tagspecifications TO lt_tagspecifications. TRY. " Create/launch Amazon Elastic Compute Cloud (Amazon EC2) instance. " oo_result = lo_ec2->runinstances( " oo_result is returned for testing purposes. " iv_imageid = iv_ami_id iv_instancetype = 't3.micro' iv_maxcount = 1 iv_mincount = 1 it_tagspecifications = lt_tagspecifications iv_subnetid = iv_subnet_id ). MESSAGE 'EC2 instance created.' TYPE 'I'. CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDTRY. ``` + For API details, see [RunInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Create and return a new EC2 instance. /// /// - Parameters: /// - imageId: The image ID of the AMI to use when creating the instance. /// - instanceType: The type of instance to create. /// - keyPairName: The RSA key pair's name to use to secure the instance. /// - securityGroups: The security group or groups to add the instance /// to. /// /// - Returns: The EC2 instance as an `EC2ClientTypes.Instance` object. func runInstance(imageId: String, instanceType: EC2ClientTypes.InstanceType, keyPairName: String, securityGroups: [String]?) async -> EC2ClientTypes.Instance? { do { let output = try await ec2Client.runInstances( input: RunInstancesInput( imageId: imageId, instanceType: instanceType, keyName: keyPairName, maxCount: 1, minCount: 1, securityGroupIds: securityGroups ) ) guard let instances = output.instances else { print("*** Unable to create the instance.") return nil } return instances[0] } catch { print("*** Error creating the instance: \(error.localizedDescription)") return nil } } ``` + For API details, see [RunInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/runinstances(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `RunScheduledInstances` with a CLI The following code examples show how to use `RunScheduledInstances`. ------ #### [ CLI ] **AWS CLI** **To launch a Scheduled Instance** This example launches the specified Scheduled Instance in a VPC. Command: ``` aws ec2 run-scheduled-instances --scheduled-instance-id sci-1234-1234-1234-1234-123456789012 --instance-count 1 --launch-specification file://launch-specification.json ``` Launch-specification.json: ``` { "ImageId": "ami-12345678", "KeyName": "my-key-pair", "InstanceType": "c4.large", "NetworkInterfaces": [ { "DeviceIndex": 0, "SubnetId": "subnet-12345678", "AssociatePublicIpAddress": true, "Groups": ["sg-12345678"] } ], "IamInstanceProfile": { "Name": "my-iam-role" } } ``` Output: ``` { "InstanceIdSet": [ "i-1234567890abcdef0" ] } ``` This example launches the specified Scheduled Instance in EC2-Classic. Command: ``` aws ec2 run-scheduled-instances --scheduled-instance-id sci-1234-1234-1234-1234-123456789012 --instance-count 1 --launch-specification file://launch-specification.json ``` Launch-specification.json: ``` { "ImageId": "ami-12345678", "KeyName": "my-key-pair", "SecurityGroupIds": ["sg-12345678"], "InstanceType": "c4.large", "Placement": { "AvailabilityZone": "us-west-2b" } "IamInstanceProfile": { "Name": "my-iam-role" } } ``` Output: ``` { "InstanceIdSet": [ "i-1234567890abcdef0" ] } ``` + For API details, see [RunScheduledInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/run-scheduled-instances.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example launches the specified Scheduled Instance.** ``` New-EC2ScheduledInstance -ScheduledInstanceId sci-1234-1234-1234-1234-123456789012 -InstanceCount 1 ` -IamInstanceProfile_Name my-iam-role ` -LaunchSpecification_ImageId ami-12345678 ` -LaunchSpecification_InstanceType c4.large ` -LaunchSpecification_SubnetId subnet-12345678` -LaunchSpecification_SecurityGroupId sg-12345678 ``` + For API details, see [RunScheduledInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example launches the specified Scheduled Instance.** ``` New-EC2ScheduledInstance -ScheduledInstanceId sci-1234-1234-1234-1234-123456789012 -InstanceCount 1 ` -IamInstanceProfile_Name my-iam-role ` -LaunchSpecification_ImageId ami-12345678 ` -LaunchSpecification_InstanceType c4.large ` -LaunchSpecification_SubnetId subnet-12345678` -LaunchSpecification_SecurityGroupId sg-12345678 ``` + For API details, see [RunScheduledInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `StartInstances` with an AWS SDK or CLI The following code examples show how to use `StartInstances`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Start an EC2 instance. /// /// The instance Id of the Amazon EC2 instance /// to start. /// Async task. public async Task StartInstances(string ec2InstanceId) { try { var request = new StartInstancesRequest { InstanceIds = new List { ec2InstanceId }, }; await _amazonEC2.StartInstancesAsync(request); Console.Write("Waiting for instance to start. "); await WaitForInstanceState(ec2InstanceId, InstanceStateName.Running); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceId") { _logger.LogError( $"InstanceId is invalid, unable to start. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while starting the instance.: {ex.Message}"); throw; } } /// /// Wait until an EC2 instance is in a specified state. /// /// The instance Id. /// The state to wait for. /// A Boolean value indicating the success of the action. public async Task WaitForInstanceState(string instanceId, InstanceStateName stateName) { var request = new DescribeInstancesRequest { InstanceIds = new List { instanceId } }; // Wait until the instance is in the specified state. var hasState = false; do { // Wait 5 seconds. Thread.Sleep(5000); // Check for the desired state. var response = await _amazonEC2.DescribeInstancesAsync(request); var instance = response.Reservations[0].Instances[0]; hasState = instance.State.Name == stateName; Console.Write(". "); } while (!hasState); return hasState; } ``` + For API details, see [StartInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/StartInstances) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_start_instances # # This function starts one or more Amazon Elastic Compute Cloud (Amazon EC2) instances. # # Parameters: # -i instance_id - The ID(s) of the instance(s) to start (comma-separated). # -h - Display help. # # Returns: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_start_instances() { local instance_ids local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_start_instances" echo "Starts one or more Amazon Elastic Compute Cloud (Amazon EC2) instances." echo " -i instance_id - The ID(s) of the instance(s) to start (comma-separated)." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:h" option; do case "${option}" in i) instance_ids="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$instance_ids" ]]; then errecho "ERROR: You must provide one or more instance IDs with the -i parameter." usage return 1 fi response=$(aws ec2 start-instances \ --instance-ids "${instance_ids}") || { aws_cli_error_log ${?} errecho "ERROR: AWS reports start-instances operation failed with $response." return 1 } return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [StartInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/StartInstances) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Start an Amazon Elastic Compute Cloud (Amazon EC2) instance. /*! \param instanceID: An EC2 instance ID. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::startInstance(const Aws::String &instanceId, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::StartInstancesRequest startRequest; startRequest.AddInstanceIds(instanceId); startRequest.SetDryRun(true); Aws::EC2::Model::StartInstancesOutcome dryRunOutcome = ec2Client.StartInstances(startRequest); if (dryRunOutcome.IsSuccess()) { std::cerr << "Failed dry run to start instance. A dry run should trigger an error." << std::endl; return false; } else if (dryRunOutcome.GetError().GetErrorType() != Aws::EC2::EC2Errors::DRY_RUN_OPERATION) { std::cout << "Failed dry run to start instance " << instanceId << ": " << dryRunOutcome.GetError().GetMessage() << std::endl; return false; } startRequest.SetDryRun(false); Aws::EC2::Model::StartInstancesOutcome startInstancesOutcome = ec2Client.StartInstances(startRequest); if (!startInstancesOutcome.IsSuccess()) { std::cout << "Failed to start instance " << instanceId << ": " << startInstancesOutcome.GetError().GetMessage() << std::endl; } else { std::cout << "Successfully started instance " << instanceId << std::endl; } return startInstancesOutcome.IsSuccess(); } ``` + For API details, see [StartInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/StartInstances) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **To start an Amazon EC2 instance** This example starts the specified Amazon EBS-backed instance. Command: ``` aws ec2 start-instances --instance-ids i-1234567890abcdef0 ``` Output: ``` { "StartingInstances": [ { "InstanceId": "i-1234567890abcdef0", "CurrentState": { "Code": 0, "Name": "pending" }, "PreviousState": { "Code": 80, "Name": "stopped" } } ] } ``` For more information, see Stop and Start Your Instance in the *Amazon Elastic Compute Cloud User Guide*. + For API details, see [StartInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/start-instances.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Starts an Amazon EC2 instance asynchronously and waits until it is in the "running" state. * * @param instanceId the ID of the instance to start * @return a {@link CompletableFuture} that completes when the instance has been started and is in the "running" state, or exceptionally if an error occurs */ public CompletableFuture startInstanceAsync(String instanceId) { StartInstancesRequest startRequest = StartInstancesRequest.builder() .instanceIds(instanceId) .build(); Ec2AsyncWaiter ec2Waiter = Ec2AsyncWaiter.builder() .client(getAsyncClient()) .build(); DescribeInstancesRequest describeRequest = DescribeInstancesRequest.builder() .instanceIds(instanceId) .build(); logger.info("Starting instance " + instanceId + " and waiting for it to run."); CompletableFuture resultFuture = new CompletableFuture<>(); return getAsyncClient().startInstances(startRequest) .thenCompose(response -> ec2Waiter.waitUntilInstanceRunning(describeRequest) ) .thenAccept(waiterResponse -> { logger.info("Successfully started instance " + instanceId); resultFuture.complete(null); }) .exceptionally(throwable -> { resultFuture.completeExceptionally(new RuntimeException("Failed to start instance: " + throwable.getMessage(), throwable)); return null; }); } ``` + For API details, see [StartInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/StartInstances) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { EC2Client, StartInstancesCommand } from "@aws-sdk/client-ec2"; import { fileURLToPath } from "node:url"; import { parseArgs } from "node:util"; /** * Starts an Amazon EBS-backed instance that you've previously stopped. * @param {{ instanceIds }} options */ export const main = async ({ instanceIds }) => { const client = new EC2Client({}); const command = new StartInstancesCommand({ InstanceIds: instanceIds, }); try { const { StartingInstances } = await client.send(command); const instanceIdList = StartingInstances.map( (instance) => ` • ${instance.InstanceId}`, ); console.log("Starting instances:"); console.log(instanceIdList.join("\n")); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidInstanceID.NotFound" ) { console.warn(`${caught.message}`); } else { throw caught; } } }; ``` + For API details, see [StartInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/StartInstancesCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun startInstanceSc(instanceId: String) { val request = StartInstancesRequest { instanceIds = listOf(instanceId) } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.startInstances(request) println("Waiting until instance $instanceId starts. This will take a few minutes.") ec2.waitUntilInstanceRunning { // suspend call instanceIds = listOf(instanceId) } println("Successfully started instance $instanceId") } } ``` + For API details, see [StartInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example starts the specified instance.** ``` Start-EC2Instance -InstanceId i-12345678 ``` **Output:** ``` CurrentState InstanceId PreviousState ------------ ---------- ------------- Amazon.EC2.Model.InstanceState i-12345678 Amazon.EC2.Model.InstanceState ``` **Example 2: This example starts the specified instances.** ``` @("i-12345678", "i-76543210") | Start-EC2Instance ``` **Example 3: This example starts the set of instances that are currently stopped. The Instance objects returned by Get-EC2Instance are piped to Start-EC2Instance. The syntax used by this example requires PowerShell version 3 or higher.** ``` (Get-EC2Instance -Filter @{ Name="instance-state-name"; Values="stopped"}).Instances | Start-EC2Instance ``` **Example 4: With PowerShell version 2, you must use New-Object to create the filter for the Filter parameter.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "instance-state-name" $filter.Values = "stopped" (Get-EC2Instance -Filter $filter).Instances | Start-EC2Instance ``` + For API details, see [StartInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example starts the specified instance.** ``` Start-EC2Instance -InstanceId i-12345678 ``` **Output:** ``` CurrentState InstanceId PreviousState ------------ ---------- ------------- Amazon.EC2.Model.InstanceState i-12345678 Amazon.EC2.Model.InstanceState ``` **Example 2: This example starts the specified instances.** ``` @("i-12345678", "i-76543210") | Start-EC2Instance ``` **Example 3: This example starts the set of instances that are currently stopped. The Instance objects returned by Get-EC2Instance are piped to Start-EC2Instance. The syntax used by this example requires PowerShell version 3 or higher.** ``` (Get-EC2Instance -Filter @{ Name="instance-state-name"; Values="stopped"}).Instances | Start-EC2Instance ``` **Example 4: With PowerShell version 2, you must use New-Object to create the filter for the Filter parameter.** ``` $filter = New-Object Amazon.EC2.Model.Filter $filter.Name = "instance-state-name" $filter.Values = "stopped" (Get-EC2Instance -Filter $filter).Instances | Start-EC2Instance ``` **Example 5: This example validates permissions for starting an EC2 instance using the DryRun parameter without actually starting the instance. Note: This throws an exception if succeeded which is the expected behavior.** ``` Start-EC2Instance -InstanceId 'i-0abcdef123456' -Region 'us-west-1' -DryRun $true ``` + For API details, see [StartInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class EC2InstanceWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface.""" def __init__( self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None ) -> None: """ Initializes the EC2InstanceWrapper with an EC2 client and optional instances. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that wrap instance actions. """ self.ec2_client = ec2_client self.instances = instances or [] @classmethod def from_client(cls) -> "EC2InstanceWrapper": """ Creates an EC2InstanceWrapper instance with a default EC2 client. :return: An instance of EC2InstanceWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def start(self) -> Optional[Dict[str, Any]]: """ Starts instances and waits for them to be in a running state. :return: The response to the start request. """ if not self.instances: logger.info("No instances to start.") return None instance_ids = [instance["InstanceId"] for instance in self.instances] try: start_response = self.ec2_client.start_instances(InstanceIds=instance_ids) waiter = self.ec2_client.get_waiter("instance_running") waiter.wait(InstanceIds=instance_ids) return start_response except ClientError as err: logger.error( f"Failed to start instance(s): {','.join(map(str, instance_ids))}" ) error_code = err.response["Error"]["Code"] if error_code == "IncorrectInstanceState": logger.error( "Couldn't start instance(s) because they are in an incorrect state. " "Ensure the instances are in a stopped state before starting them." ) raise ``` + For API details, see [StartInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/StartInstances) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` require 'aws-sdk-ec2' # Attempts to start an Amazon Elastic Compute Cloud (Amazon EC2) instance. # # Prerequisites: # # - The Amazon EC2 instance. # # @param ec2_client [Aws::EC2::Client] An initialized EC2 client. # @param instance_id [String] The ID of the instance. # @return [Boolean] true if the instance was started; otherwise, false. # @example # exit 1 unless instance_started?( # Aws::EC2::Client.new(region: 'us-west-2'), # 'i-123abc' # ) def instance_started?(ec2_client, instance_id) response = ec2_client.describe_instance_status(instance_ids: [instance_id]) if response.instance_statuses.count.positive? state = response.instance_statuses[0].instance_state.name case state when 'pending' puts 'Error starting instance: the instance is pending. Try again later.' return false when 'running' puts 'The instance is already running.' return true when 'terminated' puts 'Error starting instance: ' \ 'the instance is terminated, so you cannot start it.' return false end end ec2_client.start_instances(instance_ids: [instance_id]) ec2_client.wait_until(:instance_running, instance_ids: [instance_id]) puts 'Instance started.' true rescue StandardError => e puts "Error starting instance: #{e.message}" false end # Example usage: def run_me instance_id = '' region = '' # Print usage information and then stop. if ARGV[0] == '--help' || ARGV[0] == '-h' puts 'Usage: ruby ec2-ruby-example-start-instance-i-123abc.rb ' \ 'INSTANCE_ID REGION ' # Replace us-west-2 with the AWS Region you're using for Amazon EC2. puts 'Example: ruby ec2-ruby-example-start-instance-i-123abc.rb ' \ 'i-123abc us-west-2' exit 1 # If no values are specified at the command prompt, use these default values. # Replace us-west-2 with the AWS Region you're using for Amazon EC2. elsif ARGV.count.zero? instance_id = 'i-123abc' region = 'us-west-2' # Otherwise, use the values as specified at the command prompt. else instance_id = ARGV[0] region = ARGV[1] end ec2_client = Aws::EC2::Client.new(region: region) puts "Attempting to start instance '#{instance_id}' " \ '(this might take a few minutes)...' return if instance_started?(ec2_client, instance_id) puts 'Could not start instance.' end run_me if $PROGRAM_NAME == __FILE__ ``` + For API details, see [StartInstances](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/StartInstances) in *AWS SDK for Ruby API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). Start an EC2 Instance by instance ID. ``` pub async fn start_instance(&self, instance_id: &str) -> Result<(), EC2Error> { tracing::info!("Starting instance {instance_id}"); self.client .start_instances() .instance_ids(instance_id) .send() .await?; tracing::info!("Started instance."); Ok(()) } ``` Wait for an instance to be in the ready and status ok states, using the Waiters API. Using the Waiters API requires `use aws\$1sdk\$1ec2::client::Waiters` in the rust file. ``` /// Wait for an instance to be ready and status ok (default wait 60 seconds) pub async fn wait_for_instance_ready( &self, instance_id: &str, duration: Option, ) -> Result<(), EC2Error> { self.client .wait_until_instance_status_ok() .instance_ids(instance_id) .wait(duration.unwrap_or(Duration::from_secs(60))) .await .map_err(|err| match err { WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!( "Exceeded max time ({}s) waiting for instance to start.", exceeded.max_wait().as_secs() )), _ => EC2Error::from(err), })?; Ok(()) } ``` + For API details, see [StartInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.start_instances) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` DATA lt_instance_ids TYPE /aws1/cl_ec2instidstringlist_w=>tt_instanceidstringlist. APPEND NEW /aws1/cl_ec2instidstringlist_w( iv_value = iv_instance_id ) TO lt_instance_ids. "Perform dry run" TRY. " DryRun is set to true. This checks for the required permissions to start the instance without actually making the request. " lo_ec2->startinstances( it_instanceids = lt_instance_ids iv_dryrun = abap_true ). CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). " If the error code returned is `DryRunOperation`, then you have the required permissions to start this instance. " IF lo_exception->av_err_code = 'DryRunOperation'. MESSAGE 'Dry run to start instance completed.' TYPE 'I'. " DryRun is set to false to start instance. " oo_result = lo_ec2->startinstances( " oo_result is returned for testing purposes. " it_instanceids = lt_instance_ids iv_dryrun = abap_false ). MESSAGE 'Successfully started the EC2 instance.' TYPE 'I'. " If the error code returned is `UnauthorizedOperation`, then you don't have the required permissions to start this instance. " ELSEIF lo_exception->av_err_code = 'UnauthorizedOperation'. MESSAGE 'Dry run to start instance failed. User does not have permissions to start the instance.' TYPE 'E'. ELSE. DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDIF. ENDTRY. ``` + For API details, see [StartInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Start the specified instance. /// /// - Parameters: /// - instanceId: The ID of the instance to start. /// - waitUntilStarted: If `true`, execution waits until the instance /// has started. Otherwise, execution continues and the instance starts /// asynchronously. /// /// - Returns: `true` if the image is successfully started (or is left to /// start asynchronously). `false` if the instance doesn't start. func startInstance(instanceId: String, waitUntilStarted: Bool = false) async -> Bool { let instanceList = [instanceId] do { _ = try await ec2Client.startInstances( input: StartInstancesInput( instanceIds: instanceList ) ) if waitUntilStarted { print("Waiting for the instance to start...") let waitOptions = WaiterOptions(maxWaitTime: 60.0) let output = try await ec2Client.waitUntilInstanceRunning( options: waitOptions, input: DescribeInstancesInput( instanceIds: instanceList ) ) switch output.result { case .success: return true case .failure: return false } } else { return true } } catch { print("*** Unable to start the instance: \(error.localizedDescription)") return false } } ``` + For API details, see [StartInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/startinstances(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `StopInstances` with an AWS SDK or CLI The following code examples show how to use `StopInstances`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Stop an EC2 instance. /// /// The instance Id of the EC2 instance to /// stop. /// Async task. public async Task StopInstances(string ec2InstanceId) { try { var request = new StopInstancesRequest { InstanceIds = new List { ec2InstanceId }, }; await _amazonEC2.StopInstancesAsync(request); Console.Write("Waiting for the instance to stop."); await WaitForInstanceState(ec2InstanceId, InstanceStateName.Stopped); Console.WriteLine("\nThe instance has stopped."); } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceId") { _logger.LogError( $"InstanceId is invalid, unable to stop. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while stopping the instance.: {ex.Message}"); throw; } } /// /// Wait until an EC2 instance is in a specified state. /// /// The instance Id. /// The state to wait for. /// A Boolean value indicating the success of the action. public async Task WaitForInstanceState(string instanceId, InstanceStateName stateName) { var request = new DescribeInstancesRequest { InstanceIds = new List { instanceId } }; // Wait until the instance is in the specified state. var hasState = false; do { // Wait 5 seconds. Thread.Sleep(5000); // Check for the desired state. var response = await _amazonEC2.DescribeInstancesAsync(request); var instance = response.Reservations[0].Instances[0]; hasState = instance.State.Name == stateName; Console.Write(". "); } while (!hasState); return hasState; } ``` + For API details, see [StopInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/StopInstances) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_stop_instances # # This function stops one or more Amazon Elastic Compute Cloud (Amazon EC2) instances. # # Parameters: # -i instance_id - The ID(s) of the instance(s) to stop (comma-separated). # -h - Display help. # # Returns: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_stop_instances() { local instance_ids local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_stop_instances" echo "Stops one or more Amazon Elastic Compute Cloud (Amazon EC2) instances." echo " -i instance_id - The ID(s) of the instance(s) to stop (comma-separated)." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:h" option; do case "${option}" in i) instance_ids="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 if [[ -z "$instance_ids" ]]; then errecho "ERROR: You must provide one or more instance IDs with the -i parameter." usage return 1 fi response=$(aws ec2 stop-instances \ --instance-ids "${instance_ids}") || { aws_cli_error_log ${?} errecho "ERROR: AWS reports stop-instances operation failed with $response." return 1 } return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [StopInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/StopInstances) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Stop an EC2 instance. /*! \param instanceID: An EC2 instance ID. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::stopInstance(const Aws::String &instanceId, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::StopInstancesRequest request; request.AddInstanceIds(instanceId); request.SetDryRun(true); Aws::EC2::Model::StopInstancesOutcome dryRunOutcome = ec2Client.StopInstances(request); if (dryRunOutcome.IsSuccess()) { std::cerr << "Failed dry run to stop instance. A dry run should trigger an error." << std::endl; return false; } else if (dryRunOutcome.GetError().GetErrorType() != Aws::EC2::EC2Errors::DRY_RUN_OPERATION) { std::cout << "Failed dry run to stop instance " << instanceId << ": " << dryRunOutcome.GetError().GetMessage() << std::endl; return false; } request.SetDryRun(false); Aws::EC2::Model::StopInstancesOutcome outcome = ec2Client.StopInstances(request); if (!outcome.IsSuccess()) { std::cout << "Failed to stop instance " << instanceId << ": " << outcome.GetError().GetMessage() << std::endl; } else { std::cout << "Successfully stopped instance " << instanceId << std::endl; } return outcome.IsSuccess(); } void PrintUsage() { std::cout << "Usage: run_start_stop_instance " << std::endl; } ``` + For API details, see [StopInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/StopInstances) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **Example 1: To stop an Amazon EC2 instance** The following `stop-instances` example stops the specified Amazon EBS-backed instance. ``` aws ec2 stop-instances \ --instance-ids i-1234567890abcdef0 ``` Output: ``` { "StoppingInstances": [ { "InstanceId": "i-1234567890abcdef0", "CurrentState": { "Code": 64, "Name": "stopping" }, "PreviousState": { "Code": 16, "Name": "running" } } ] } ``` For more information, see [Stop and Start Your Instance](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Stop_Start.html) in the *Amazon Elastic Compute Cloud User Guide*. **Example 2: To hibernate an Amazon EC2 instance** The following `stop-instances` example hibernates Amazon EBS-backed instance if the instance is enabled for hibernation and meets the hibernation prerequisites. After the instance is put into hibernation the instance is stopped. ``` aws ec2 stop-instances \ --instance-ids i-1234567890abcdef0 \ --hibernate ``` Output: ``` { "StoppingInstances": [ { "CurrentState": { "Code": 64, "Name": "stopping" }, "InstanceId": "i-1234567890abcdef0", "PreviousState": { "Code": 16, "Name": "running" } } ] } ``` For more information, see [Hibernate your On-Demand Linux instance](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/Hibernate.html) in the *Amazon Elastic Cloud Compute User Guide*. + For API details, see [StopInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/stop-instances.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Stops the EC2 instance with the specified ID asynchronously and waits for the instance to stop. * * @param instanceId the ID of the EC2 instance to stop * @return a {@link CompletableFuture} that completes when the instance has been stopped, or exceptionally if an error occurs */ public CompletableFuture stopInstanceAsync(String instanceId) { StopInstancesRequest stopRequest = StopInstancesRequest.builder() .instanceIds(instanceId) .build(); DescribeInstancesRequest describeRequest = DescribeInstancesRequest.builder() .instanceIds(instanceId) .build(); Ec2AsyncWaiter ec2Waiter = Ec2AsyncWaiter.builder() .client(getAsyncClient()) .build(); CompletableFuture resultFuture = new CompletableFuture<>(); logger.info("Stopping instance " + instanceId + " and waiting for it to stop."); getAsyncClient().stopInstances(stopRequest) .thenCompose(response -> { if (response.stoppingInstances().isEmpty()) { return CompletableFuture.failedFuture(new RuntimeException("No instances were stopped. Please check the instance ID: " + instanceId)); } return ec2Waiter.waitUntilInstanceStopped(describeRequest); }) .thenAccept(waiterResponse -> { logger.info("Successfully stopped instance " + instanceId); resultFuture.complete(null); }) .exceptionally(throwable -> { logger.error("Failed to stop instance " + instanceId + ": " + throwable.getMessage(), throwable); resultFuture.completeExceptionally(new RuntimeException("Failed to stop instance: " + throwable.getMessage(), throwable)); return null; }); return resultFuture; } ``` + For API details, see [StopInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/StopInstances) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { EC2Client, StopInstancesCommand } from "@aws-sdk/client-ec2"; import { fileURLToPath } from "node:url"; import { parseArgs } from "node:util"; /** * Stop one or more EC2 instances. * @param {{ instanceIds: string[] }} options */ export const main = async ({ instanceIds }) => { const client = new EC2Client({}); const command = new StopInstancesCommand({ InstanceIds: instanceIds, }); try { const { StoppingInstances } = await client.send(command); const instanceIdList = StoppingInstances.map( (instance) => ` • ${instance.InstanceId}`, ); console.log("Stopping instances:"); console.log(instanceIdList.join("\n")); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidInstanceID.NotFound" ) { console.warn(`${caught.message}`); } else { throw caught; } } }; ``` + For API details, see [StopInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/StopInstancesCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun stopInstanceSc(instanceId: String) { val request = StopInstancesRequest { instanceIds = listOf(instanceId) } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> ec2.stopInstances(request) println("Waiting until instance $instanceId stops. This will take a few minutes.") ec2.waitUntilInstanceStopped { // suspend call instanceIds = listOf(instanceId) } println("Successfully stopped instance $instanceId") } } ``` + For API details, see [StopInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example stops the specified instance.** ``` Stop-EC2Instance -InstanceId i-12345678 ``` **Output:** ``` CurrentState InstanceId PreviousState ------------ ---------- ------------- Amazon.EC2.Model.InstanceState i-12345678 Amazon.EC2.Model.InstanceState ``` + For API details, see [StopInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example stops the specified instance.** ``` Stop-EC2Instance -InstanceId i-12345678 ``` **Output:** ``` CurrentState InstanceId PreviousState ------------ ---------- ------------- Amazon.EC2.Model.InstanceState i-12345678 Amazon.EC2.Model.InstanceState ``` + For API details, see [StopInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class EC2InstanceWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface.""" def __init__( self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None ) -> None: """ Initializes the EC2InstanceWrapper with an EC2 client and optional instances. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that wrap instance actions. """ self.ec2_client = ec2_client self.instances = instances or [] @classmethod def from_client(cls) -> "EC2InstanceWrapper": """ Creates an EC2InstanceWrapper instance with a default EC2 client. :return: An instance of EC2InstanceWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def stop(self) -> Optional[Dict[str, Any]]: """ Stops instances and waits for them to be in a stopped state. :return: The response to the stop request, or None if there are no instances to stop. """ if not self.instances: logger.info("No instances to stop.") return None instance_ids = [instance["InstanceId"] for instance in self.instances] try: # Attempt to stop the instances stop_response = self.ec2_client.stop_instances(InstanceIds=instance_ids) waiter = self.ec2_client.get_waiter("instance_stopped") waiter.wait(InstanceIds=instance_ids) except ClientError as err: logger.error( f"Failed to stop instance(s): {','.join(map(str, instance_ids))}" ) error_code = err.response["Error"]["Code"] if error_code == "IncorrectInstanceState": logger.error( "Couldn't stop instance(s) because they are in an incorrect state. " "Ensure the instances are in a running state before stopping them." ) raise return stop_response ``` + For API details, see [StopInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/StopInstances) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` require 'aws-sdk-ec2' # Prerequisites: # # - The Amazon EC2 instance. # # @param ec2_client [Aws::EC2::Client] An initialized EC2 client. # @param instance_id [String] The ID of the instance. # @return [Boolean] true if the instance was stopped; otherwise, false. # @example # exit 1 unless instance_stopped?( # Aws::EC2::Client.new(region: 'us-west-2'), # 'i-123abc' # ) def instance_stopped?(ec2_client, instance_id) response = ec2_client.describe_instance_status(instance_ids: [instance_id]) if response.instance_statuses.count.positive? state = response.instance_statuses[0].instance_state.name case state when 'stopping' puts 'The instance is already stopping.' return true when 'stopped' puts 'The instance is already stopped.' return true when 'terminated' puts 'Error stopping instance: ' \ 'the instance is terminated, so you cannot stop it.' return false end end ec2_client.stop_instances(instance_ids: [instance_id]) ec2_client.wait_until(:instance_stopped, instance_ids: [instance_id]) puts 'Instance stopped.' true rescue StandardError => e puts "Error stopping instance: #{e.message}" false end # Example usage: def run_me instance_id = '' region = '' # Print usage information and then stop. if ARGV[0] == '--help' || ARGV[0] == '-h' puts 'Usage: ruby ec2-ruby-example-stop-instance-i-123abc.rb ' \ 'INSTANCE_ID REGION ' # Replace us-west-2 with the AWS Region you're using for Amazon EC2. puts 'Example: ruby ec2-ruby-example-start-instance-i-123abc.rb ' \ 'i-123abc us-west-2' exit 1 # If no values are specified at the command prompt, use these default values. # Replace us-west-2 with the AWS Region you're using for Amazon EC2. elsif ARGV.count.zero? instance_id = 'i-123abc' region = 'us-west-2' # Otherwise, use the values as specified at the command prompt. else instance_id = ARGV[0] region = ARGV[1] end ec2_client = Aws::EC2::Client.new(region: region) puts "Attempting to stop instance '#{instance_id}' " \ '(this might take a few minutes)...' return if instance_stopped?(ec2_client, instance_id) puts 'Could not stop instance.' end run_me if $PROGRAM_NAME == __FILE__ ``` + For API details, see [StopInstances](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/StopInstances) in *AWS SDK for Ruby API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn stop_instance(&self, instance_id: &str) -> Result<(), EC2Error> { tracing::info!("Stopping instance {instance_id}"); self.client .stop_instances() .instance_ids(instance_id) .send() .await?; self.wait_for_instance_stopped(instance_id, None).await?; tracing::info!("Stopped instance."); Ok(()) } ``` Wait for an instance to be in the stopped state, using the Waiters API. Using the Waiters API requires `use aws\$1sdk\$1ec2::client::Waiters` in the rust file. ``` pub async fn stop_instance(&self, instance_id: &str) -> Result<(), EC2Error> { tracing::info!("Stopping instance {instance_id}"); self.client .stop_instances() .instance_ids(instance_id) .send() .await?; self.wait_for_instance_stopped(instance_id, None).await?; tracing::info!("Stopped instance."); Ok(()) } ``` + For API details, see [StopInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.stop_instances) in *AWS SDK for Rust API reference*. ------ #### [ SAP ABAP ] **SDK for SAP ABAP** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/ec2#code-examples). ``` DATA lt_instance_ids TYPE /aws1/cl_ec2instidstringlist_w=>tt_instanceidstringlist. APPEND NEW /aws1/cl_ec2instidstringlist_w( iv_value = iv_instance_id ) TO lt_instance_ids. "Perform dry run" TRY. " DryRun is set to true. This checks for the required permissions to stop the instance without actually making the request. " lo_ec2->stopinstances( it_instanceids = lt_instance_ids iv_dryrun = abap_true ). CATCH /aws1/cx_rt_service_generic INTO DATA(lo_exception). " If the error code returned is `DryRunOperation`, then you have the required permissions to stop this instance. " IF lo_exception->av_err_code = 'DryRunOperation'. MESSAGE 'Dry run to stop instance completed.' TYPE 'I'. " DryRun is set to false to stop instance. " oo_result = lo_ec2->stopinstances( " oo_result is returned for testing purposes. " it_instanceids = lt_instance_ids iv_dryrun = abap_false ). MESSAGE 'Successfully stopped the EC2 instance.' TYPE 'I'. " If the error code returned is `UnauthorizedOperation`, then you don't have the required permissions to stop this instance. " ELSEIF lo_exception->av_err_code = 'UnauthorizedOperation'. MESSAGE 'Dry run to stop instance failed. User does not have permissions to stop the instance.' TYPE 'E'. ELSE. DATA(lv_error) = |"{ lo_exception->av_err_code }" - { lo_exception->av_err_msg }|. MESSAGE lv_error TYPE 'E'. ENDIF. ENDTRY. ``` + For API details, see [StopInstances](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html) in *AWS SDK for SAP ABAP API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Stop the specified instance. /// /// - Parameters: /// - instanceId: The ID of the instance to stop. /// - waitUntilStopped: If `true`, execution waits until the instance /// has stopped. Otherwise, execution continues and the instance stops /// asynchronously. /// /// - Returns: `true` if the image is successfully stopped (or is left to /// stop asynchronously). `false` if the instance doesn't stop. func stopInstance(instanceId: String, waitUntilStopped: Bool = false) async -> Bool { let instanceList = [instanceId] do { _ = try await ec2Client.stopInstances( input: StopInstancesInput( instanceIds: instanceList ) ) if waitUntilStopped { print("Waiting for the instance to stop. Please be patient!") let waitOptions = WaiterOptions(maxWaitTime: 600) let output = try await ec2Client.waitUntilInstanceStopped( options: waitOptions, input: DescribeInstancesInput( instanceIds: instanceList ) ) switch output.result { case .success: return true case .failure: return false } } else { return true } } catch { print("*** Unable to stop the instance: \(error.localizedDescription)") return false } } ``` + For API details, see [StopInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/stopinstances(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `TerminateInstances` with an AWS SDK or CLI The following code examples show how to use `TerminateInstances`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code examples: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) + [Create a basic VPC](example_vpc_GettingStartedCLI_section.md) + [Creating an Amazon ECS service for the EC2 launch type](example_ecs_GettingStarted_018_section.md) + [Creating and managing Amazon EBS volumes](example_ec2_GettingStarted_020_section.md) + [Get started with Marketplace Buyer](example_ec2_GettingStarted_030_section.md) + [Getting started with Amazon EC2](example_ec2_GettingStarted_013_section.md) + [Getting started with Amazon MSK](example_ec2_GettingStarted_057_section.md) + [Run CPU stress tests on EC2 instances using FIS](example_iam_GettingStarted_069_section.md) ------ #### [ .NET ] **SDK for .NET** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/EC2#code-examples). ``` /// /// Terminate an EC2 instance. /// /// The instance Id of the EC2 instance /// to terminate. /// Async task. public async Task> TerminateInstances(string ec2InstanceId) { try { var request = new TerminateInstancesRequest { InstanceIds = new List { ec2InstanceId } }; var response = await _amazonEC2.TerminateInstancesAsync(request); Console.Write("Waiting for the instance to terminate."); await WaitForInstanceState(ec2InstanceId, InstanceStateName.Terminated); Console.WriteLine($"\nThe instance {ec2InstanceId} has been terminated."); return response.TerminatingInstances; } catch (AmazonEC2Exception ec2Exception) { if (ec2Exception.ErrorCode == "InvalidInstanceId") { _logger.LogError( $"InstanceId is invalid, unable to terminate. {ec2Exception.Message}"); } throw; } catch (Exception ex) { _logger.LogError( $"An error occurred while terminating the instance.: {ex.Message}"); throw; } } /// /// Wait until an EC2 instance is in a specified state. /// /// The instance Id. /// The state to wait for. /// A Boolean value indicating the success of the action. public async Task WaitForInstanceState(string instanceId, InstanceStateName stateName) { var request = new DescribeInstancesRequest { InstanceIds = new List { instanceId } }; // Wait until the instance is in the specified state. var hasState = false; do { // Wait 5 seconds. Thread.Sleep(5000); // Check for the desired state. var response = await _amazonEC2.DescribeInstancesAsync(request); var instance = response.Reservations[0].Instances[0]; hasState = instance.State.Name == stateName; Console.Write(". "); } while (!hasState); return hasState; } ``` + For API details, see [TerminateInstances](https://docs.aws.amazon.com/goto/DotNetSDKV3/ec2-2016-11-15/TerminateInstances) in *AWS SDK for .NET API Reference*. ------ #### [ Bash ] **AWS CLI with Bash script** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/aws-cli/bash-linux/ec2#code-examples). ``` ############################################################################### # function ec2_terminate_instances # # This function terminates one or more Amazon Elastic Compute Cloud (Amazon EC2) # instances using the AWS CLI. # # Parameters: # -i instance_ids - A space-separated list of instance IDs. # -h - Display help. # # Returns: # 0 - If successful. # 1 - If it fails. ############################################################################### function ec2_terminate_instances() { local instance_ids response local option OPTARG # Required to use getopts command in a function. # bashsupport disable=BP5008 function usage() { echo "function ec2_terminate_instances" echo "Terminates one or more Amazon Elastic Compute Cloud (Amazon EC2) instances." echo " -i instance_ids - A space-separated list of instance IDs." echo " -h - Display help." echo "" } # Retrieve the calling parameters. while getopts "i:h" option; do case "${option}" in i) instance_ids="${OPTARG}" ;; h) usage return 0 ;; \?) echo "Invalid parameter" usage return 1 ;; esac done export OPTIND=1 # Check if instance ID is provided if [[ -z "${instance_ids}" ]]; then echo "Error: Missing required instance IDs parameter." usage return 1 fi # shellcheck disable=SC2086 response=$(aws ec2 terminate-instances \ "--instance-ids" $instance_ids \ --query 'TerminatingInstances[*].[InstanceId,CurrentState.Name]' \ --output text) || { aws_cli_error_log ${?} errecho "ERROR: AWS reports terminate-instances operation failed.$response" return 1 } return 0 } ``` The utility functions used in this example. ``` ############################################################################### # function errecho # # This function outputs everything sent to it to STDERR (standard error output). ############################################################################### function errecho() { printf "%s\n" "$*" 1>&2 } ############################################################################## # function aws_cli_error_log() # # This function is used to log the error messages from the AWS CLI. # # The function expects the following argument: # $1 - The error code returned by the AWS CLI. # # Returns: # 0: - Success. # ############################################################################## function aws_cli_error_log() { local err_code=$1 errecho "Error code : $err_code" if [ "$err_code" == 1 ]; then errecho " One or more S3 transfers failed." elif [ "$err_code" == 2 ]; then errecho " Command line failed to parse." elif [ "$err_code" == 130 ]; then errecho " Process received SIGINT." elif [ "$err_code" == 252 ]; then errecho " Command syntax invalid." elif [ "$err_code" == 253 ]; then errecho " The system environment or configuration was invalid." elif [ "$err_code" == 254 ]; then errecho " The service returned an error." elif [ "$err_code" == 255 ]; then errecho " 255 is a catch-all error." fi return 0 } ``` + For API details, see [TerminateInstances](https://docs.aws.amazon.com/goto/aws-cli/ec2-2016-11-15/TerminateInstances) in *AWS CLI Command Reference*. ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Terminate an Amazon Elastic Compute Cloud (Amazon EC2) instance. /*! \param instanceID: An EC2 instance ID. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::terminateInstances(const Aws::String &instanceID, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::TerminateInstancesRequest request; request.SetInstanceIds({instanceID}); Aws::EC2::Model::TerminateInstancesOutcome outcome = ec2Client.TerminateInstances(request); if (outcome.IsSuccess()) { std::cout << "Ec2 instance '" << instanceID << "' was terminated." << std::endl; } else { std::cerr << "Failed to terminate ec2 instance " << instanceID << ", " << outcome.GetError().GetMessage() << std::endl; return false; } return outcome.IsSuccess(); } ``` + For API details, see [TerminateInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/TerminateInstances) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **To terminate an Amazon EC2 instance** This example terminates the specified instance. Command: ``` aws ec2 terminate-instances --instance-ids i-1234567890abcdef0 ``` Output: ``` { "TerminatingInstances": [ { "InstanceId": "i-1234567890abcdef0", "CurrentState": { "Code": 32, "Name": "shutting-down" }, "PreviousState": { "Code": 16, "Name": "running" } } ] } ``` For more information, see Using Amazon EC2 Instances in the *AWS Command Line Interface User Guide*. + For API details, see [TerminateInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/terminate-instances.html) in *AWS CLI Command Reference*. ------ #### [ Java ] **SDK for Java 2.x** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/ec2#code-examples). ``` /** * Terminates an EC2 instance asynchronously and waits for it to reach the terminated state. * * @param instanceId the ID of the EC2 instance to terminate * @return a {@link CompletableFuture} that completes when the instance has been terminated * @throws RuntimeException if there is no response from the AWS SDK or if there is a failure during the termination process */ public CompletableFuture terminateEC2Async(String instanceId) { TerminateInstancesRequest terminateRequest = TerminateInstancesRequest.builder() .instanceIds(instanceId) .build(); CompletableFuture responseFuture = getAsyncClient().terminateInstances(terminateRequest); return responseFuture.thenCompose(terminateResponse -> { if (terminateResponse == null) { throw new RuntimeException("No response received for terminating instance " + instanceId); } System.out.println("Going to terminate an EC2 instance and use a waiter to wait for it to be in terminated state"); return getAsyncClient().waiter() .waitUntilInstanceTerminated(r -> r.instanceIds(instanceId)) .thenApply(waiterResponse -> null); }).exceptionally(throwable -> { // Handle any exceptions that occurred during the async call throw new RuntimeException("Failed to terminate EC2 instance: " + throwable.getMessage(), throwable); }); } ``` + For API details, see [TerminateInstances](https://docs.aws.amazon.com/goto/SdkForJavaV2/ec2-2016-11-15/TerminateInstances) in *AWS SDK for Java 2.x API Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { EC2Client, TerminateInstancesCommand } from "@aws-sdk/client-ec2"; import { fileURLToPath } from "node:url"; import { parseArgs } from "node:util"; /** * Terminate one or more EC2 instances. * @param {{ instanceIds: string[] }} options */ export const main = async ({ instanceIds }) => { const client = new EC2Client({}); const command = new TerminateInstancesCommand({ InstanceIds: instanceIds, }); try { const { TerminatingInstances } = await client.send(command); const instanceList = TerminatingInstances.map( (instance) => ` • ${instance.InstanceId}`, ); console.log("Terminating instances:"); console.log(instanceList.join("\n")); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidInstanceID.NotFound" ) { console.warn(`${caught.message}`); } else { throw caught; } } }; ``` + For API details, see [TerminateInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/TerminateInstancesCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ Kotlin ] **SDK for Kotlin** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/kotlin/services/ec2#code-examples). ``` suspend fun terminateEC2(instanceID: String) { val request = TerminateInstancesRequest { instanceIds = listOf(instanceID) } Ec2Client.fromEnvironment { region = "us-west-2" }.use { ec2 -> val response = ec2.terminateInstances(request) response.terminatingInstances?.forEach { instance -> println("The ID of the terminated instance is ${instance.instanceId}") } } } ``` + For API details, see [TerminateInstances](https://sdk.amazonaws.com/kotlin/api/latest/index.html) in *AWS SDK for Kotlin API reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example terminates the specified instance (the instance may be running or in 'stopped' state). The cmdlet will prompt for confirmation before proceeding; use the -Force switch to suppress the prompt.** ``` Remove-EC2Instance -InstanceId i-12345678 ``` **Output:** ``` CurrentState InstanceId PreviousState ------------ ---------- ------------- Amazon.EC2.Model.InstanceState i-12345678 Amazon.EC2.Model.InstanceState ``` + For API details, see [TerminateInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example terminates the specified instance (the instance may be running or in 'stopped' state). The cmdlet will prompt for confirmation before proceeding; use the -Force switch to suppress the prompt.** ``` Remove-EC2Instance -InstanceId i-12345678 ``` **Output:** ``` CurrentState InstanceId PreviousState ------------ ---------- ------------- Amazon.EC2.Model.InstanceState i-12345678 Amazon.EC2.Model.InstanceState ``` + For API details, see [TerminateInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ #### [ Python ] **SDK for Python (Boto3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/ec2#code-examples). ``` class EC2InstanceWrapper: """Encapsulates Amazon Elastic Compute Cloud (Amazon EC2) instance actions using the client interface.""" def __init__( self, ec2_client: Any, instances: Optional[List[Dict[str, Any]]] = None ) -> None: """ Initializes the EC2InstanceWrapper with an EC2 client and optional instances. :param ec2_client: A Boto3 Amazon EC2 client. This client provides low-level access to AWS EC2 services. :param instances: A list of dictionaries representing Boto3 Instance objects. These are high-level objects that wrap instance actions. """ self.ec2_client = ec2_client self.instances = instances or [] @classmethod def from_client(cls) -> "EC2InstanceWrapper": """ Creates an EC2InstanceWrapper instance with a default EC2 client. :return: An instance of EC2InstanceWrapper initialized with the default EC2 client. """ ec2_client = boto3.client("ec2") return cls(ec2_client) def terminate(self) -> None: """ Terminates instances and waits for them to reach the terminated state. """ if not self.instances: logger.info("No instances to terminate.") return instance_ids = [instance["InstanceId"] for instance in self.instances] try: self.ec2_client.terminate_instances(InstanceIds=instance_ids) waiter = self.ec2_client.get_waiter("instance_terminated") waiter.wait(InstanceIds=instance_ids) self.instances.clear() for instance_id in instance_ids: print(f"• Instance ID: {instance_id}\n" f"• Action: Terminated") except ClientError as err: logger.error( f"Failed instance termination details:\n\t{str(self.instances)}" ) error_code = err.response["Error"]["Code"] if error_code == "InvalidInstanceID.NotFound": logger.error( "One or more instance IDs do not exist. " "Please verify the instance IDs and try again." ) raise ``` + For API details, see [TerminateInstances](https://docs.aws.amazon.com/goto/boto3/ec2-2016-11-15/TerminateInstances) in *AWS SDK for Python (Boto3) API Reference*. ------ #### [ Ruby ] **SDK for Ruby** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/ruby/example_code/ec2#code-examples). ``` require 'aws-sdk-ec2' # Prerequisites: # # - The Amazon EC2 instance. # # @param ec2_client [Aws::EC2::Client] An initialized EC2 client. # @param instance_id [String] The ID of the instance. # @return [Boolean] true if the instance was terminated; otherwise, false. # @example # exit 1 unless instance_terminated?( # Aws::EC2::Client.new(region: 'us-west-2'), # 'i-123abc' # ) def instance_terminated?(ec2_client, instance_id) response = ec2_client.describe_instance_status(instance_ids: [instance_id]) if response.instance_statuses.count.positive? && response.instance_statuses[0].instance_state.name == 'terminated' puts 'The instance is already terminated.' return true end ec2_client.terminate_instances(instance_ids: [instance_id]) ec2_client.wait_until(:instance_terminated, instance_ids: [instance_id]) puts 'Instance terminated.' true rescue StandardError => e puts "Error terminating instance: #{e.message}" false end # Example usage: def run_me instance_id = '' region = '' # Print usage information and then stop. if ARGV[0] == '--help' || ARGV[0] == '-h' puts 'Usage: ruby ec2-ruby-example-terminate-instance-i-123abc.rb ' \ 'INSTANCE_ID REGION ' # Replace us-west-2 with the AWS Region you're using for Amazon EC2. puts 'Example: ruby ec2-ruby-example-terminate-instance-i-123abc.rb ' \ 'i-123abc us-west-2' exit 1 # If no values are specified at the command prompt, use these default values. # Replace us-west-2 with the AWS Region you're using for Amazon EC2. elsif ARGV.count.zero? instance_id = 'i-123abc' region = 'us-west-2' # Otherwise, use the values as specified at the command prompt. else instance_id = ARGV[0] region = ARGV[1] end ec2_client = Aws::EC2::Client.new(region: region) puts "Attempting to terminate instance '#{instance_id}' " \ '(this might take a few minutes)...' return if instance_terminated?(ec2_client, instance_id) puts 'Could not terminate instance.' end run_me if $PROGRAM_NAME == __FILE__ ``` + For API details, see [TerminateInstances](https://docs.aws.amazon.com/goto/SdkForRubyV3/ec2-2016-11-15/TerminateInstances) in *AWS SDK for Ruby API Reference*. ------ #### [ Rust ] **SDK for Rust** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/ec2#code-examples). ``` pub async fn delete_instance(&self, instance_id: &str) -> Result<(), EC2Error> { tracing::info!("Deleting instance with id {instance_id}"); self.stop_instance(instance_id).await?; self.client .terminate_instances() .instance_ids(instance_id) .send() .await?; self.wait_for_instance_terminated(instance_id).await?; tracing::info!("Terminated instance with id {instance_id}"); Ok(()) } ``` Wait for an instance to be in the terminted state, using the Waiters API. Using the Waiters API requires `use aws\$1sdk\$1ec2::client::Waiters` in the rust file. ``` async fn wait_for_instance_terminated(&self, instance_id: &str) -> Result<(), EC2Error> { self.client .wait_until_instance_terminated() .instance_ids(instance_id) .wait(Duration::from_secs(60)) .await .map_err(|err| match err { WaiterError::ExceededMaxWait(exceeded) => EC2Error(format!( "Exceeded max time ({}s) waiting for instance to terminate.", exceeded.max_wait().as_secs(), )), _ => EC2Error::from(err), })?; Ok(()) } ``` + For API details, see [TerminateInstances](https://docs.rs/aws-sdk-ec2/latest/aws_sdk_ec2/client/struct.Client.html#method.terminate_instances) in *AWS SDK for Rust API reference*. ------ #### [ Swift ] **SDK for Swift** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/ec2#code-examples). ``` import AWSEC2 /// Terminate the specified instance. /// /// - Parameters: /// - instanceId: The instance to terminate. /// - waitUntilTerminated: Whether or not to wait until the instance is /// terminated before returning. /// /// - Returns: `true` if terminated successfully. `false` if not or if an /// error occurs. func terminateInstance(instanceId: String, waitUntilTerminated: Bool = false) async -> Bool { let instanceList = [instanceId] do { _ = try await ec2Client.terminateInstances( input: TerminateInstancesInput( instanceIds: instanceList ) ) if waitUntilTerminated { print("Waiting for the instance to terminate...") let waitOptions = WaiterOptions(maxWaitTime: 600.0) let output = try await ec2Client.waitUntilInstanceTerminated( options: waitOptions, input: DescribeInstancesInput( instanceIds: instanceList ) ) switch output.result { case .success: return true case .failure: return false } } else { return true } } catch { print("*** Unable to terminate the instance: \(error.localizedDescription)") return false } } ``` + For API details, see [TerminateInstances](https://sdk.amazonaws.com/swift/api/awsec2/latest/documentation/awsec2/ec2client/terminateinstances(input:)) in *AWS SDK for Swift API reference*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `UnassignPrivateIpAddresses` with a CLI The following code examples show how to use `UnassignPrivateIpAddresses`. ------ #### [ CLI ] **AWS CLI** **To unassign a secondary private IP address from a network interface** This example unassigns the specified private IP address from the specified network interface. If the command succeeds, no output is returned. Command: ``` aws ec2 unassign-private-ip-addresses --network-interface-id eni-e5aa89a3 --private-ip-addresses 10.0.0.82 ``` + For API details, see [UnassignPrivateIpAddresses](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/unassign-private-ip-addresses.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example unassigns the specified private IP address from the specified network interface.** ``` Unregister-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -PrivateIpAddress 10.0.0.82 ``` + For API details, see [UnassignPrivateIpAddresses](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example unassigns the specified private IP address from the specified network interface.** ``` Unregister-EC2PrivateIpAddress -NetworkInterfaceId eni-1a2b3c4d -PrivateIpAddress 10.0.0.82 ``` + For API details, see [UnassignPrivateIpAddresses](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `UnmonitorInstances` with an AWS SDK or CLI The following code examples show how to use `UnmonitorInstances`. Action examples are code excerpts from larger programs and must be run in context. You can see this action in context in the following code example: + [Learn the basics](example_ec2_Scenario_GetStartedInstances_section.md) ------ #### [ C\$1\$1 ] **SDK for C\$1\$1** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/cpp/example_code/ec2#code-examples). ``` //! Disable monitoring for an EC2 instance. /*! \param instanceId: An EC2 instance ID. \param clientConfiguration: AWS client configuration. \return bool: Function succeeded. */ bool AwsDoc::EC2::disableMonitoring(const Aws::String &instanceId, const Aws::Client::ClientConfiguration &clientConfiguration) { Aws::EC2::EC2Client ec2Client(clientConfiguration); Aws::EC2::Model::UnmonitorInstancesRequest unrequest; unrequest.AddInstanceIds(instanceId); unrequest.SetDryRun(true); Aws::EC2::Model::UnmonitorInstancesOutcome dryRunOutcome = ec2Client.UnmonitorInstances(unrequest); if (dryRunOutcome.IsSuccess()) { std::cerr << "Failed dry run to disable monitoring on instance. A dry run should trigger an error." << std::endl; return false; } else if (dryRunOutcome.GetError().GetErrorType() != Aws::EC2::EC2Errors::DRY_RUN_OPERATION) { std::cout << "Failed dry run to disable monitoring on instance " << instanceId << ": " << dryRunOutcome.GetError().GetMessage() << std::endl; return false; } unrequest.SetDryRun(false); Aws::EC2::Model::UnmonitorInstancesOutcome unmonitorInstancesOutcome = ec2Client.UnmonitorInstances(unrequest); if (!unmonitorInstancesOutcome.IsSuccess()) { std::cout << "Failed to disable monitoring on instance " << instanceId << ": " << unmonitorInstancesOutcome.GetError().GetMessage() << std::endl; } else { std::cout << "Successfully disable monitoring on instance " << instanceId << std::endl; } return unmonitorInstancesOutcome.IsSuccess(); } ``` + For API details, see [UnmonitorInstances](https://docs.aws.amazon.com/goto/SdkForCpp/ec2-2016-11-15/UnmonitorInstances) in *AWS SDK for C\$1\$1 API Reference*. ------ #### [ CLI ] **AWS CLI** **To disable detailed monitoring for an instance** This example command disables detailed monitoring for the specified instance. Command: ``` aws ec2 unmonitor-instances --instance-ids i-1234567890abcdef0 ``` Output: ``` { "InstanceMonitorings": [ { "InstanceId": "i-1234567890abcdef0", "Monitoring": { "State": "disabling" } } ] } ``` + For API details, see [UnmonitorInstances](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/unmonitor-instances.html) in *AWS CLI Command Reference*. ------ #### [ JavaScript ] **SDK for JavaScript (v3)** There's more on GitHub. Find the complete example and learn how to set up and run in the [AWS Code Examples Repository](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/ec2#code-examples). ``` import { EC2Client, UnmonitorInstancesCommand } from "@aws-sdk/client-ec2"; import { fileURLToPath } from "node:url"; import { parseArgs } from "node:util"; /** * Turn off detailed monitoring for the selected instance. * @param {{ instanceIds: string[] }} options */ export const main = async ({ instanceIds }) => { const client = new EC2Client({}); const command = new UnmonitorInstancesCommand({ InstanceIds: instanceIds, }); try { const { InstanceMonitorings } = await client.send(command); const instanceMonitoringsList = InstanceMonitorings.map( (im) => ` • Detailed monitoring state for ${im.InstanceId} is ${im.Monitoring.State}.`, ); console.log("Monitoring status:"); console.log(instanceMonitoringsList.join("\n")); } catch (caught) { if ( caught instanceof Error && caught.name === "InvalidInstanceID.NotFound" ) { console.warn(`${caught.message}`); } else { throw caught; } } }; ``` + For API details, see [UnmonitorInstances](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/ec2/command/UnmonitorInstancesCommand) in *AWS SDK for JavaScript API Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: This example disables detailed monitoring for the specified instance.** ``` Stop-EC2InstanceMonitoring -InstanceId i-12345678 ``` **Output:** ``` InstanceId Monitoring ---------- ---------- i-12345678 Amazon.EC2.Model.Monitoring ``` + For API details, see [UnmonitorInstances](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: This example disables detailed monitoring for the specified instance.** ``` Stop-EC2InstanceMonitoring -InstanceId i-12345678 ``` **Output:** ``` InstanceId Monitoring ---------- ---------- i-12345678 Amazon.EC2.Model.Monitoring ``` + For API details, see [UnmonitorInstances](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions. # Use `UpdateSecurityGroupRuleDescriptionsIngress` with a CLI The following code examples show how to use `UpdateSecurityGroupRuleDescriptionsIngress`. ------ #### [ CLI ] **AWS CLI** **Example 1: To update the description of an inbound security group rule with a CIDR source** The following `update-security-group-rule-descriptions-ingress` example updates the description for the security group rule for the specified port and IPv4 address range. The description '`SSH access from ABC office`' replaces any existing description for the rule. ``` aws ec2 update-security-group-rule-descriptions-ingress \ --group-id sg-02f0d35a850ba727f \ --ip-permissions IpProtocol=tcp,FromPort=22,ToPort=22,IpRanges='[{CidrIp=203.0.113.0/16,Description="SSH access from corpnet"}]' ``` Output: ``` { "Return": true } ``` For more information, see [Security group rules](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html#security-group-rules) in the *Amazon EC2 User Guide*. **Example 2: To update the description of an inbound security group rule with a prefix list source** The following `update-security-group-rule-descriptions-ingress` example updates the description for the security group rule for the specified port and prefix list. The description '`SSH access from ABC office`' replaces any existing description for the rule. ``` aws ec2 update-security-group-rule-descriptions-ingress \ --group-id sg-02f0d35a850ba727f \ --ip-permissions IpProtocol=tcp,FromPort=22,ToPort=22,PrefixListIds='[{PrefixListId=pl-12345678,Description="SSH access from corpnet"}]' ``` Output: ``` { "Return": true } ``` For more information, see [Security group rules](https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/ec2-security-groups.html#security-group-rules) in the *Amazon EC2 User Guide*. + For API details, see [UpdateSecurityGroupRuleDescriptionsIngress](https://awscli.amazonaws.com/v2/documentation/api/latest/reference/ec2/update-security-group-rule-descriptions-ingress.html) in *AWS CLI Command Reference*. ------ #### [ PowerShell ] **Tools for PowerShell V4** **Example 1: Updates the description of an existing ingress (inbound) security group rule.** ``` $existingInboundRule = Get-EC2SecurityGroupRule -SecurityGroupRuleId "sgr-1234567890" $ruleWithUpdatedDescription = [Amazon.EC2.Model.SecurityGroupRuleDescription]@{ "SecurityGroupRuleId" = $existingInboundRule.SecurityGroupRuleId "Description" = "Updated rule description" } Update-EC2SecurityGroupRuleIngressDescription -GroupId $existingInboundRule.GroupId -SecurityGroupRuleDescription $ruleWithUpdatedDescription ``` **Example 2: Removes the description of an existing ingress (inbound) security group rule (by omitting the parameter in the request).** ``` $existingInboundRule = Get-EC2SecurityGroupRule -SecurityGroupRuleId "sgr-1234567890" $ruleWithoutDescription = [Amazon.EC2.Model.SecurityGroupRuleDescription]@{ "SecurityGroupRuleId" = $existingInboundRule.SecurityGroupRuleId } Update-EC2SecurityGroupRuleIngressDescription -GroupId $existingInboundRule.GroupId -SecurityGroupRuleDescription $ruleWithoutDescription ``` + For API details, see [UpdateSecurityGroupRuleDescriptionsIngress](https://docs.aws.amazon.com/powershell/v4/reference) in *AWS Tools for PowerShell Cmdlet Reference (V4)*. **Tools for PowerShell V5** **Example 1: Updates the description of an existing ingress (inbound) security group rule.** ``` $existingInboundRule = Get-EC2SecurityGroupRule -SecurityGroupRuleId "sgr-1234567890" $ruleWithUpdatedDescription = [Amazon.EC2.Model.SecurityGroupRuleDescription]@{ "SecurityGroupRuleId" = $existingInboundRule.SecurityGroupRuleId "Description" = "Updated rule description" } Update-EC2SecurityGroupRuleIngressDescription -GroupId $existingInboundRule.GroupId -SecurityGroupRuleDescription $ruleWithUpdatedDescription ``` **Example 2: Removes the description of an existing ingress (inbound) security group rule (by omitting the parameter in the request).** ``` $existingInboundRule = Get-EC2SecurityGroupRule -SecurityGroupRuleId "sgr-1234567890" $ruleWithoutDescription = [Amazon.EC2.Model.SecurityGroupRuleDescription]@{ "SecurityGroupRuleId" = $existingInboundRule.SecurityGroupRuleId } Update-EC2SecurityGroupRuleIngressDescription -GroupId $existingInboundRule.GroupId -SecurityGroupRuleDescription $ruleWithoutDescription ``` + For API details, see [UpdateSecurityGroupRuleDescriptionsIngress](https://docs.aws.amazon.com/powershell/v5/reference) in *AWS Tools for PowerShell Cmdlet Reference (V5)*. ------ For a complete list of AWS SDK developer guides and code examples, see [Create Amazon EC2 resources using an AWS SDK](sdk-general-information-section.md). This topic also includes information about getting started and details about previous SDK versions.