Describes one or more of your VPCs.
IAsyncResult invokeDescribeVpcs(DescribeVpcsRequest describeVpcsRequest, AsyncCallback callback, object state, bool synchronized) { IRequest irequest = new DescribeVpcsRequestMarshaller().Marshall(describeVpcsRequest); var unmarshaller = DescribeVpcsResponseUnmarshaller.GetInstance(); AsyncResult result = new AsyncResult(irequest, callback, state, synchronized, signer, unmarshaller); Invoke(result); return result; }
/// <summary> /// <para>Describes one or more of your VPCs.</para> /// </summary> /// /// <param name="describeVpcsRequest">Container for the necessary parameters to execute the DescribeVpcs service method on AmazonEC2.</param> /// /// <returns>The response from the DescribeVpcs service method, as returned by AmazonEC2.</returns> /// public DescribeVpcsResponse DescribeVpcs(DescribeVpcsRequest describeVpcsRequest) { IAsyncResult asyncResult = invokeDescribeVpcs(describeVpcsRequest, null, null, true); return EndDescribeVpcs(asyncResult); }
/// <summary> /// Initiates the asynchronous execution of the DescribeVpcs operation. /// <seealso cref="Amazon.EC2.IAmazonEC2.DescribeVpcs"/> /// </summary> /// /// <param name="describeVpcsRequest">Container for the necessary parameters to execute the DescribeVpcs operation on AmazonEC2.</param> /// <param name="callback">An AsyncCallback delegate that is invoked when the operation completes.</param> /// <param name="state">A user-defined state object that is passed to the callback procedure. Retrieve this object from within the callback /// procedure using the AsyncState property.</param> /// /// <returns>An IAsyncResult that can be used to poll or wait for results, or both; this value is also needed when invoking EndDescribeVpcs /// operation.</returns> public IAsyncResult BeginDescribeVpcs(DescribeVpcsRequest describeVpcsRequest, AsyncCallback callback, object state) { return invokeDescribeVpcs(describeVpcsRequest, callback, state, false); }
internal DescribeVpcsResponse DescribeVpcs(DescribeVpcsRequest request) { var task = DescribeVpcsAsync(request); try { return task.Result; } catch(AggregateException e) { ExceptionDispatchInfo.Capture(e.InnerException).Throw(); return null; } }
/// <summary> /// <para>Describes one or more of your VPCs.</para> /// </summary> /// /// <param name="describeVpcsRequest">Container for the necessary parameters to execute the DescribeVpcs service method on AmazonEC2.</param> /// /// <returns>The response from the DescribeVpcs service method, as returned by AmazonEC2.</returns> /// <param name="cancellationToken"> /// A cancellation token that can be used by other objects or threads to receive notice of cancellation. /// </param> public Task<DescribeVpcsResponse> DescribeVpcsAsync(DescribeVpcsRequest describeVpcsRequest, CancellationToken cancellationToken = default(CancellationToken)) { var marshaller = new DescribeVpcsRequestMarshaller(); var unmarshaller = DescribeVpcsResponseUnmarshaller.GetInstance(); return Invoke<IRequest, DescribeVpcsRequest, DescribeVpcsResponse>(describeVpcsRequest, marshaller, unmarshaller, signer, cancellationToken); }
/// <summary> /// Describes one or more of your VPCs. /// </summary> /// <param name="request">Container for the necessary parameters to execute the DescribeVpcs service method.</param> /// /// <returns>The response from the DescribeVpcs service method, as returned by EC2.</returns> public DescribeVpcsResponse DescribeVpcs(DescribeVpcsRequest request) { var marshaller = new DescribeVpcsRequestMarshaller(); var unmarshaller = DescribeVpcsResponseUnmarshaller.Instance; return Invoke<DescribeVpcsRequest,DescribeVpcsResponse>(request, marshaller, unmarshaller); }
public IEnumerable<Vpc> GetVpcs() { var request = new DescribeVpcsRequest(); var response = _ec2Client.DescribeVpcs(request); return response.Vpcs; }
private async Task<string> GetVpcId() { var request = new DescribeVpcsRequest { VpcIds = {_cluster.VpcCidr} }; var response = await _ec2client.DescribeVpcsAsync(request); var vpc = response.Vpcs.FirstOrDefault(); if (vpc == null) { throw new InvalidOperationException($"Vpc not found: {_cluster.VpcCidr}"); } return vpc.VpcId; }
private async Task<Vpc> VpcExists() { var request = new DescribeVpcsRequest(); var response = await _client.DescribeVpcsAsync(request); return response.Vpcs.FirstOrDefault(vpc => vpc.CidrBlock == _cluster.VpcCidr); }
public object Execute(ExecutorContext context) { var cmdletContext = context as CmdletContext; var useParameterSelect = this.Select.StartsWith("^") || this.PassThru.IsPresent; // create request and set iteration invariants var request = new Amazon.EC2.Model.DescribeVpcsRequest(); if (cmdletContext.Filter != null) { request.Filters = cmdletContext.Filter; } if (cmdletContext.VpcId != null) { request.VpcIds = cmdletContext.VpcId; } // Initialize loop variants and commence piping System.String _nextToken = null; int? _emitLimit = null; int _retrievedSoFar = 0; if (AutoIterationHelpers.HasValue(cmdletContext.NextToken)) { _nextToken = cmdletContext.NextToken; } if (AutoIterationHelpers.HasValue(cmdletContext.MaxResult)) { // The service has a maximum page size of 1000. If the user has // asked for more items than page max, and there is no page size // configured, we rely on the service ignoring the set maximum // and giving us 1000 items back. If a page size is set, that will // be used to configure the pagination. // We'll make further calls to satisfy the user's request. _emitLimit = cmdletContext.MaxResult; } var _userControllingPaging = this.NoAutoIteration.IsPresent || ParameterWasBound(nameof(this.NextToken)); var client = Client ?? CreateClient(_CurrentCredentials, _RegionEndpoint); do { request.NextToken = _nextToken; if (_emitLimit.HasValue) { int correctPageSize = AutoIterationHelpers.Min(1000, _emitLimit.Value); request.MaxResults = AutoIterationHelpers.ConvertEmitLimitToInt32(correctPageSize); } CmdletOutput output; try { var response = CallAWSServiceOperation(client, request); object pipelineOutput = null; if (!useParameterSelect) { pipelineOutput = cmdletContext.Select(response, this); } output = new CmdletOutput { PipelineOutput = pipelineOutput, ServiceResponse = response }; int _receivedThisCall = response.Vpcs.Count; _nextToken = response.NextToken; _retrievedSoFar += _receivedThisCall; if (_emitLimit.HasValue) { _emitLimit -= _receivedThisCall; } } catch (Exception e) { if (_retrievedSoFar == 0 || !_emitLimit.HasValue) { output = new CmdletOutput { ErrorResponse = e }; } else { break; } } ProcessOutput(output); } while (!_userControllingPaging && AutoIterationHelpers.HasValue(_nextToken) && (!_emitLimit.HasValue || _emitLimit.Value >= 5)); if (useParameterSelect) { WriteObject(cmdletContext.Select(null, this)); } return(null); }
private Amazon.EC2.Model.DescribeVpcsResponse CallAWSServiceOperation(IAmazonEC2 client, Amazon.EC2.Model.DescribeVpcsRequest request) { Utils.Common.WriteVerboseEndpointMessage(this, client.Config, "Amazon Elastic Compute Cloud (EC2)", "DescribeVpcs"); try { #if DESKTOP return(client.DescribeVpcs(request)); #elif CORECLR return(client.DescribeVpcsAsync(request).GetAwaiter().GetResult()); #else #error "Unknown build edition" #endif } catch (AmazonServiceException exc) { var webException = exc.InnerException as System.Net.WebException; if (webException != null) { throw new Exception(Utils.Common.FormatNameResolutionFailureMessage(client.Config, webException.Message), webException); } throw; } }
public object Execute(ExecutorContext context) { var cmdletContext = context as CmdletContext; #pragma warning disable CS0618, CS0612 //A class member was marked with the Obsolete attribute var useParameterSelect = this.Select.StartsWith("^") || this.PassThru.IsPresent; #pragma warning restore CS0618, CS0612 //A class member was marked with the Obsolete attribute // create request and set iteration invariants var request = new Amazon.EC2.Model.DescribeVpcsRequest(); if (cmdletContext.Filter != null) { request.Filters = cmdletContext.Filter; } if (cmdletContext.MaxResult != null) { request.MaxResults = AutoIterationHelpers.ConvertEmitLimitToServiceTypeInt32(cmdletContext.MaxResult.Value); } if (cmdletContext.VpcId != null) { request.VpcIds = cmdletContext.VpcId; } // Initialize loop variant and commence piping var _nextToken = cmdletContext.NextToken; var _userControllingPaging = this.NoAutoIteration.IsPresent || ParameterWasBound(nameof(this.NextToken)); var client = Client ?? CreateClient(_CurrentCredentials, _RegionEndpoint); do { request.NextToken = _nextToken; CmdletOutput output; try { var response = CallAWSServiceOperation(client, request); object pipelineOutput = null; if (!useParameterSelect) { pipelineOutput = cmdletContext.Select(response, this); } output = new CmdletOutput { PipelineOutput = pipelineOutput, ServiceResponse = response }; _nextToken = response.NextToken; } catch (Exception e) { output = new CmdletOutput { ErrorResponse = e }; } ProcessOutput(output); } while (!_userControllingPaging && AutoIterationHelpers.HasValue(_nextToken)); if (useParameterSelect) { WriteObject(cmdletContext.Select(null, this)); } return(null); }
/// <summary> /// vpcworker DoWork event handler to load view model with selected VPC data /// </summary> /// <param name="sender"></param> /// <param name="e"></param> private void LoadAwsVpcDataContext(object sender, DoWorkEventArgs e) { AmazonEC2Client ec2Client = GetEc2Client(); DescribeVpcsRequest vpcreq = new DescribeVpcsRequest(); DescribeVpcsResponse vpcresp = ec2Client.DescribeVpcs(vpcreq); Dispatcher.BeginInvoke(DispatcherPriority.Background, new Action(() => { vm.Vpcs.Clear(); })); foreach (Vpc vpc in vpcresp.DescribeVpcsResult.Vpc) { Dispatcher.BeginInvoke(DispatcherPriority.Background, new Action(() => { vm.Vpcs.Add(new Models.ConsoleVPC() { VPC = vpc }); })); } DescribeSubnetsRequest sncreq = new DescribeSubnetsRequest(); DescribeSubnetsResponse cnresp = ec2Client.DescribeSubnets(sncreq); foreach (Subnet subnet in cnresp.DescribeSubnetsResult.Subnet) { Models.ConsoleVPC vpc = vm.Vpcs.Where(o => o.VPC.VpcId == subnet.VpcId).FirstOrDefault(); if (vpc != null) { Models.ConsoleSubnet cs = vpc.Subnets.Where(o => o.Subnet == subnet).FirstOrDefault(); if (cs == null) { Dispatcher.BeginInvoke(DispatcherPriority.Background, new Action(() => { vpc.Subnets.Add(new Models.ConsoleSubnet() { DisplayName = string.Concat(subnet.SubnetId, " (", subnet.AvailabilityZone, ")"), Subnet = subnet }); })); } } } }
/// <summary> /// This method will create a VPC with a subnet that will have an internet gateway attached making instances available to the internet. /// </summary> /// <param name="ec2Client">The ec2client used to create the VPC</param> /// <param name="request">The properties used to create the VPC.</param> /// <param name="response">The response contains all the VPC objects that were created.</param> private static void LaunchVPCWithPublicSubnet(AmazonEC2 ec2Client, LaunchVPCWithPublicSubnetRequest request, LaunchVPCWithPublicSubnetResponse response) { response.VPC = ec2Client.CreateVpc(new CreateVpcRequest() { CidrBlock = request.VPCCidrBlock, InstanceTenancy = request.InstanceTenancy }).CreateVpcResult.Vpc; WriteProgress(request.ProgressCallback, "Created vpc {0}", response.VPC.VpcId); var describeVPCRequest = new DescribeVpcsRequest() { VpcId = new List<string>() { response.VPC.VpcId } }; WaitTillTrue(((Func<bool>)(() => ec2Client.DescribeVpcs(describeVPCRequest).DescribeVpcsResult.Vpc.Count == 1))); if(!string.IsNullOrEmpty(request.VPCName)) { ec2Client.CreateTags(new CreateTagsRequest() { ResourceId = new List<string>(){ response.VPC.VpcId}, Tag = new List<Tag>(){new Tag(){Key = "Name", Value = request.VPCName}} }); } response.PublicSubnet = ec2Client.CreateSubnet(new CreateSubnetRequest() { AvailabilityZone = request.PublicSubnetAvailabilityZone, CidrBlock = request.PublicSubnetCiderBlock, VpcId = response.VPC.VpcId }).CreateSubnetResult.Subnet; WriteProgress(request.ProgressCallback, "Created public subnet {0}", response.PublicSubnet.SubnetId); WaitTillTrue(((Func<bool>)(() => (ec2Client.DescribeSubnets(new DescribeSubnetsRequest() { SubnetId = new List<string>() { response.PublicSubnet.SubnetId } }).DescribeSubnetsResult.Subnet.Count == 1)))); ec2Client.CreateTags(new CreateTagsRequest() { ResourceId = new List<string>() { response.PublicSubnet.SubnetId }, Tag = new List<Tag>() { new Tag() { Key = "Name", Value = "Public" } } }); response.InternetGateway = ec2Client.CreateInternetGateway(new CreateInternetGatewayRequest() { }).CreateInternetGatewayResult.InternetGateway; WriteProgress(request.ProgressCallback, "Created internet gateway {0}", response.InternetGateway.InternetGatewayId); ec2Client.AttachInternetGateway(new AttachInternetGatewayRequest() { InternetGatewayId = response.InternetGateway.InternetGatewayId, VpcId = response.VPC.VpcId }); WriteProgress(request.ProgressCallback, "Attached internet gateway to vpc"); response.PublicSubnetRouteTable = ec2Client.CreateRouteTable(new CreateRouteTableRequest() { VpcId = response.VPC.VpcId }).CreateRouteTableResult.RouteTable; WriteProgress(request.ProgressCallback, "Created route table {0}", response.PublicSubnetRouteTable.RouteTableId); var describeRouteTableRequest = new DescribeRouteTablesRequest() { RouteTableId = new List<string>() { response.PublicSubnetRouteTable.RouteTableId } }; WaitTillTrue(((Func<bool>)(() => (ec2Client.DescribeRouteTables(describeRouteTableRequest).DescribeRouteTablesResult.RouteTables.Count == 1)))); ec2Client.CreateTags(new CreateTagsRequest() { ResourceId = new List<string>() { response.PublicSubnetRouteTable.RouteTableId }, Tag = new List<Tag>() { new Tag() { Key = "Name", Value = "Public" } } }); ec2Client.AssociateRouteTable(new AssociateRouteTableRequest() { RouteTableId = response.PublicSubnetRouteTable.RouteTableId, SubnetId = response.PublicSubnet.SubnetId }); WriteProgress(request.ProgressCallback, "Associated route table to public subnet"); ec2Client.CreateRoute(new CreateRouteRequest() { DestinationCidrBlock = "0.0.0.0/0", GatewayId = response.InternetGateway.InternetGatewayId, RouteTableId = response.PublicSubnetRouteTable.RouteTableId }); WriteProgress(request.ProgressCallback, "Added route for internet gateway to route table {0}", response.PublicSubnetRouteTable.RouteTableId); response.PublicSubnetRouteTable = ec2Client.DescribeRouteTables(describeRouteTableRequest).DescribeRouteTablesResult.RouteTables[0]; }
/// <summary> /// Paginator for DescribeVpcs operation ///</summary> public IDescribeVpcsPaginator DescribeVpcs(DescribeVpcsRequest request) { return(new DescribeVpcsPaginator(this.client, request)); }
/// <summary> /// <para> Gives you information about your VPCs. You can filter the results to return information only about VPCs that match criteria you /// specify. </para> <para> For example, you could ask to get information about a particular VPC or VPCs (or all your VPCs) only if the VPC's /// state is available. You can specify multiple filters (e.g., the VPC uses one of several sets of DHCP options, and the VPC's state is /// available). The result includes information for a particular VPC only if the VPC matches all your filters. </para> <para> If there's no /// match, no special message is returned; the response is simply empty. The following table shows the available filters. </para> /// </summary> /// /// <param name="request">Container for the necessary parameters to execute the DescribeVpcs service method on AmazonEC2.</param> /// /// <returns>The response from the DescribeVpcs service method, as returned by AmazonEC2.</returns> public DescribeVpcsResponse DescribeVpcs(DescribeVpcsRequest request) { var task = DescribeVpcsAsync(request); try { return task.Result; } catch(AggregateException e) { throw e.InnerException; } }
/// <summary> /// Initiates the asynchronous execution of the DescribeVpcs operation. /// </summary> /// /// <param name="request">Container for the necessary parameters to execute the DescribeVpcs operation on AmazonEC2Client.</param> /// <param name="callback">An AsyncCallback delegate that is invoked when the operation completes.</param> /// <param name="state">A user-defined state object that is passed to the callback procedure. Retrieve this object from within the callback /// procedure using the AsyncState property.</param> /// /// <returns>An IAsyncResult that can be used to poll or wait for results, or both; this value is also needed when invoking EndDescribeVpcs /// operation.</returns> public IAsyncResult BeginDescribeVpcs(DescribeVpcsRequest request, AsyncCallback callback, object state) { var marshaller = new DescribeVpcsRequestMarshaller(); var unmarshaller = DescribeVpcsResponseUnmarshaller.Instance; return BeginInvoke<DescribeVpcsRequest>(request, marshaller, unmarshaller, callback, state); }
/// <summary> /// Initiates the asynchronous execution of the DescribeVpcs operation. /// <seealso cref="Amazon.EC2.IAmazonEC2.DescribeVpcs"/> /// </summary> /// /// <param name="request">Container for the necessary parameters to execute the DescribeVpcs operation.</param> /// <param name="cancellationToken"> /// A cancellation token that can be used by other objects or threads to receive notice of cancellation. /// </param> /// <returns>The task object representing the asynchronous operation.</returns> public async Task<DescribeVpcsResponse> DescribeVpcsAsync(DescribeVpcsRequest request, CancellationToken cancellationToken = default(CancellationToken)) { var marshaller = new DescribeVpcsRequestMarshaller(); var unmarshaller = DescribeVpcsResponseUnmarshaller.GetInstance(); var response = await Invoke<IRequest, DescribeVpcsRequest, DescribeVpcsResponse>(request, marshaller, unmarshaller, signer, cancellationToken) .ConfigureAwait(continueOnCapturedContext: false); return response; }
/// <summary> /// Initiates the asynchronous execution of the DescribeVpcs operation. /// </summary> /// /// <param name="request">Container for the necessary parameters to execute the DescribeVpcs operation.</param> /// <param name="cancellationToken"> /// A cancellation token that can be used by other objects or threads to receive notice of cancellation. /// </param> /// <returns>The task object representing the asynchronous operation.</returns> public Task<DescribeVpcsResponse> DescribeVpcsAsync(DescribeVpcsRequest request, System.Threading.CancellationToken cancellationToken = default(CancellationToken)) { var marshaller = new DescribeVpcsRequestMarshaller(); var unmarshaller = DescribeVpcsResponseUnmarshaller.Instance; return InvokeAsync<DescribeVpcsRequest,DescribeVpcsResponse>(request, marshaller, unmarshaller, cancellationToken); }
internal DescribeVpcsPaginator(IAmazonEC2 client, DescribeVpcsRequest request) { this._client = client; this._request = request; }