internal SetLoadBasedAutoScalingResponse SetLoadBasedAutoScaling(SetLoadBasedAutoScalingRequest request) { var marshaller = new SetLoadBasedAutoScalingRequestMarshaller(); var unmarshaller = SetLoadBasedAutoScalingResponseUnmarshaller.Instance; return Invoke<SetLoadBasedAutoScalingRequest,SetLoadBasedAutoScalingResponse>(request, marshaller, unmarshaller); }
/// <summary> /// Initiates the asynchronous execution of the SetLoadBasedAutoScaling operation. /// </summary> /// /// <param name="request">Container for the necessary parameters to execute the SetLoadBasedAutoScaling 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<SetLoadBasedAutoScalingResponse> SetLoadBasedAutoScalingAsync(SetLoadBasedAutoScalingRequest request, System.Threading.CancellationToken cancellationToken = default(CancellationToken)) { var marshaller = new SetLoadBasedAutoScalingRequestMarshaller(); var unmarshaller = SetLoadBasedAutoScalingResponseUnmarshaller.Instance; return InvokeAsync<SetLoadBasedAutoScalingRequest,SetLoadBasedAutoScalingResponse>(request, marshaller, unmarshaller, cancellationToken); }
internal SetLoadBasedAutoScalingResponse SetLoadBasedAutoScaling(SetLoadBasedAutoScalingRequest request) { var task = SetLoadBasedAutoScalingAsync(request); try { return task.Result; } catch(AggregateException e) { ExceptionDispatchInfo.Capture(e.InnerException).Throw(); return null; } }
/// <summary> /// <para>Specify the load-based auto scaling configuration for a specified layer. For more information, see <a href="http://docs.aws.amazon.com/opsworks/latest/userguide/workinginstances-autoscaling.html">Managing Load with Time-based and Load-based /// Instances</a> .</para> <para><b>NOTE:</b>To use load-based auto scaling, you must create a set of load-based auto scaling instances. /// Load-based auto scaling operates only on the instances from that set, so you must ensure that you have created enough instances to handle /// the maximum anticipated load.</para> <para> <b>Required Permissions</b> : To use this action, an IAM user must have a Manage permissions /// level for the stack, or an attached policy that explicitly grants permissions. For more information on user permissions, see <a href="http://docs.aws.amazon.com/opsworks/latest/userguide/opsworks-security-users.html">Managing User Permissions</a> .</para> /// </summary> /// /// <param name="setLoadBasedAutoScalingRequest">Container for the necessary parameters to execute the SetLoadBasedAutoScaling service method on /// AmazonOpsWorks.</param> /// /// <exception cref="T:Amazon.OpsWorks.Model.ResourceNotFoundException" /> /// <exception cref="T:Amazon.OpsWorks.Model.ValidationException" /> /// <param name="cancellationToken"> /// A cancellation token that can be used by other objects or threads to receive notice of cancellation. /// </param> public Task<SetLoadBasedAutoScalingResponse> SetLoadBasedAutoScalingAsync(SetLoadBasedAutoScalingRequest setLoadBasedAutoScalingRequest, CancellationToken cancellationToken = default(CancellationToken)) { var marshaller = new SetLoadBasedAutoScalingRequestMarshaller(); var unmarshaller = SetLoadBasedAutoScalingResponseUnmarshaller.GetInstance(); return Invoke<IRequest, SetLoadBasedAutoScalingRequest, SetLoadBasedAutoScalingResponse>(setLoadBasedAutoScalingRequest, marshaller, unmarshaller, signer, cancellationToken); }
private Amazon.OpsWorks.Model.SetLoadBasedAutoScalingResponse CallAWSServiceOperation(IAmazonOpsWorks client, Amazon.OpsWorks.Model.SetLoadBasedAutoScalingRequest request) { Utils.Common.WriteVerboseEndpointMessage(this, client.Config, "AWS OpsWorks", "SetLoadBasedAutoScaling"); try { #if DESKTOP return(client.SetLoadBasedAutoScaling(request)); #elif CORECLR return(client.SetLoadBasedAutoScalingAsync(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; } }
/// <summary> /// Initiates the asynchronous execution of the SetLoadBasedAutoScaling operation. /// </summary> /// /// <param name="request">Container for the necessary parameters to execute the SetLoadBasedAutoScaling operation on AmazonOpsWorksClient.</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 EndSetLoadBasedAutoScaling /// operation.</returns> public IAsyncResult BeginSetLoadBasedAutoScaling(SetLoadBasedAutoScalingRequest request, AsyncCallback callback, object state) { var marshaller = new SetLoadBasedAutoScalingRequestMarshaller(); var unmarshaller = SetLoadBasedAutoScalingResponseUnmarshaller.Instance; return BeginInvoke<SetLoadBasedAutoScalingRequest>(request, marshaller, unmarshaller, callback, state); }
IAsyncResult invokeSetLoadBasedAutoScaling(SetLoadBasedAutoScalingRequest setLoadBasedAutoScalingRequest, AsyncCallback callback, object state, bool synchronized) { IRequest irequest = new SetLoadBasedAutoScalingRequestMarshaller().Marshall(setLoadBasedAutoScalingRequest); var unmarshaller = SetLoadBasedAutoScalingResponseUnmarshaller.GetInstance(); AsyncResult result = new AsyncResult(irequest, callback, state, synchronized, signer, unmarshaller); Invoke(result); return result; }
public object Execute(ExecutorContext context) { var cmdletContext = context as CmdletContext; // create request var request = new Amazon.OpsWorks.Model.SetLoadBasedAutoScalingRequest(); // populate DownScaling var requestDownScalingIsNull = true; request.DownScaling = new Amazon.OpsWorks.Model.AutoScalingThresholds(); List <System.String> requestDownScaling_downScaling_Alarm = null; if (cmdletContext.DownScaling_Alarm != null) { requestDownScaling_downScaling_Alarm = cmdletContext.DownScaling_Alarm; } if (requestDownScaling_downScaling_Alarm != null) { request.DownScaling.Alarms = requestDownScaling_downScaling_Alarm; requestDownScalingIsNull = false; } System.Double?requestDownScaling_downScaling_CpuThreshold = null; if (cmdletContext.DownScaling_CpuThreshold != null) { requestDownScaling_downScaling_CpuThreshold = cmdletContext.DownScaling_CpuThreshold.Value; } if (requestDownScaling_downScaling_CpuThreshold != null) { request.DownScaling.CpuThreshold = requestDownScaling_downScaling_CpuThreshold.Value; requestDownScalingIsNull = false; } System.Int32?requestDownScaling_downScaling_IgnoreMetricsTime = null; if (cmdletContext.DownScaling_IgnoreMetricsTime != null) { requestDownScaling_downScaling_IgnoreMetricsTime = cmdletContext.DownScaling_IgnoreMetricsTime.Value; } if (requestDownScaling_downScaling_IgnoreMetricsTime != null) { request.DownScaling.IgnoreMetricsTime = requestDownScaling_downScaling_IgnoreMetricsTime.Value; requestDownScalingIsNull = false; } System.Int32?requestDownScaling_downScaling_InstanceCount = null; if (cmdletContext.DownScaling_InstanceCount != null) { requestDownScaling_downScaling_InstanceCount = cmdletContext.DownScaling_InstanceCount.Value; } if (requestDownScaling_downScaling_InstanceCount != null) { request.DownScaling.InstanceCount = requestDownScaling_downScaling_InstanceCount.Value; requestDownScalingIsNull = false; } System.Double?requestDownScaling_downScaling_LoadThreshold = null; if (cmdletContext.DownScaling_LoadThreshold != null) { requestDownScaling_downScaling_LoadThreshold = cmdletContext.DownScaling_LoadThreshold.Value; } if (requestDownScaling_downScaling_LoadThreshold != null) { request.DownScaling.LoadThreshold = requestDownScaling_downScaling_LoadThreshold.Value; requestDownScalingIsNull = false; } System.Double?requestDownScaling_downScaling_MemoryThreshold = null; if (cmdletContext.DownScaling_MemoryThreshold != null) { requestDownScaling_downScaling_MemoryThreshold = cmdletContext.DownScaling_MemoryThreshold.Value; } if (requestDownScaling_downScaling_MemoryThreshold != null) { request.DownScaling.MemoryThreshold = requestDownScaling_downScaling_MemoryThreshold.Value; requestDownScalingIsNull = false; } System.Int32?requestDownScaling_downScaling_ThresholdsWaitTime = null; if (cmdletContext.DownScaling_ThresholdsWaitTime != null) { requestDownScaling_downScaling_ThresholdsWaitTime = cmdletContext.DownScaling_ThresholdsWaitTime.Value; } if (requestDownScaling_downScaling_ThresholdsWaitTime != null) { request.DownScaling.ThresholdsWaitTime = requestDownScaling_downScaling_ThresholdsWaitTime.Value; requestDownScalingIsNull = false; } // determine if request.DownScaling should be set to null if (requestDownScalingIsNull) { request.DownScaling = null; } if (cmdletContext.Enable != null) { request.Enable = cmdletContext.Enable.Value; } if (cmdletContext.LayerId != null) { request.LayerId = cmdletContext.LayerId; } // populate UpScaling var requestUpScalingIsNull = true; request.UpScaling = new Amazon.OpsWorks.Model.AutoScalingThresholds(); List <System.String> requestUpScaling_upScaling_Alarm = null; if (cmdletContext.UpScaling_Alarm != null) { requestUpScaling_upScaling_Alarm = cmdletContext.UpScaling_Alarm; } if (requestUpScaling_upScaling_Alarm != null) { request.UpScaling.Alarms = requestUpScaling_upScaling_Alarm; requestUpScalingIsNull = false; } System.Double?requestUpScaling_upScaling_CpuThreshold = null; if (cmdletContext.UpScaling_CpuThreshold != null) { requestUpScaling_upScaling_CpuThreshold = cmdletContext.UpScaling_CpuThreshold.Value; } if (requestUpScaling_upScaling_CpuThreshold != null) { request.UpScaling.CpuThreshold = requestUpScaling_upScaling_CpuThreshold.Value; requestUpScalingIsNull = false; } System.Int32?requestUpScaling_upScaling_IgnoreMetricsTime = null; if (cmdletContext.UpScaling_IgnoreMetricsTime != null) { requestUpScaling_upScaling_IgnoreMetricsTime = cmdletContext.UpScaling_IgnoreMetricsTime.Value; } if (requestUpScaling_upScaling_IgnoreMetricsTime != null) { request.UpScaling.IgnoreMetricsTime = requestUpScaling_upScaling_IgnoreMetricsTime.Value; requestUpScalingIsNull = false; } System.Int32?requestUpScaling_upScaling_InstanceCount = null; if (cmdletContext.UpScaling_InstanceCount != null) { requestUpScaling_upScaling_InstanceCount = cmdletContext.UpScaling_InstanceCount.Value; } if (requestUpScaling_upScaling_InstanceCount != null) { request.UpScaling.InstanceCount = requestUpScaling_upScaling_InstanceCount.Value; requestUpScalingIsNull = false; } System.Double?requestUpScaling_upScaling_LoadThreshold = null; if (cmdletContext.UpScaling_LoadThreshold != null) { requestUpScaling_upScaling_LoadThreshold = cmdletContext.UpScaling_LoadThreshold.Value; } if (requestUpScaling_upScaling_LoadThreshold != null) { request.UpScaling.LoadThreshold = requestUpScaling_upScaling_LoadThreshold.Value; requestUpScalingIsNull = false; } System.Double?requestUpScaling_upScaling_MemoryThreshold = null; if (cmdletContext.UpScaling_MemoryThreshold != null) { requestUpScaling_upScaling_MemoryThreshold = cmdletContext.UpScaling_MemoryThreshold.Value; } if (requestUpScaling_upScaling_MemoryThreshold != null) { request.UpScaling.MemoryThreshold = requestUpScaling_upScaling_MemoryThreshold.Value; requestUpScalingIsNull = false; } System.Int32?requestUpScaling_upScaling_ThresholdsWaitTime = null; if (cmdletContext.UpScaling_ThresholdsWaitTime != null) { requestUpScaling_upScaling_ThresholdsWaitTime = cmdletContext.UpScaling_ThresholdsWaitTime.Value; } if (requestUpScaling_upScaling_ThresholdsWaitTime != null) { request.UpScaling.ThresholdsWaitTime = requestUpScaling_upScaling_ThresholdsWaitTime.Value; requestUpScalingIsNull = false; } // determine if request.UpScaling should be set to null if (requestUpScalingIsNull) { request.UpScaling = null; } CmdletOutput output; // issue call var client = Client ?? CreateClient(_CurrentCredentials, _RegionEndpoint); try { var response = CallAWSServiceOperation(client, request); object pipelineOutput = null; pipelineOutput = cmdletContext.Select(response, this); output = new CmdletOutput { PipelineOutput = pipelineOutput, ServiceResponse = response }; } catch (Exception e) { output = new CmdletOutput { ErrorResponse = e }; } return(output); }
/// <summary> /// Initiates the asynchronous execution of the SetLoadBasedAutoScaling operation. /// <seealso cref="Amazon.OpsWorks.IAmazonOpsWorks.SetLoadBasedAutoScaling"/> /// </summary> /// /// <param name="setLoadBasedAutoScalingRequest">Container for the necessary parameters to execute the SetLoadBasedAutoScaling operation on /// AmazonOpsWorks.</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> public IAsyncResult BeginSetLoadBasedAutoScaling(SetLoadBasedAutoScalingRequest setLoadBasedAutoScalingRequest, AsyncCallback callback, object state) { return invokeSetLoadBasedAutoScaling(setLoadBasedAutoScalingRequest, callback, state, false); }
/// <summary> /// <para>Specify the load-based auto scaling configuration for a specified layer. For more information, see <a /// href="http://docs.aws.amazon.com/opsworks/latest/userguide/workinginstances-autoscaling.html" >Managing Load with Time-based and Load-based /// Instances</a> .</para> <para><b>NOTE:</b>To use load-based auto scaling, you must create a set of load-based auto scaling instances. /// Load-based auto scaling operates only on the instances from that set, so you must ensure that you have created enough instances to handle /// the maximum anticipated load.</para> <para> <b>Required Permissions</b> : To use this action, an IAM user must have a Manage permissions /// level for the stack, or an attached policy that explicitly grants permissions. For more information on user permissions, see <a /// href="http://docs.aws.amazon.com/opsworks/latest/userguide/opsworks-security-users.html" >Managing User Permissions</a> .</para> /// </summary> /// /// <param name="setLoadBasedAutoScalingRequest">Container for the necessary parameters to execute the SetLoadBasedAutoScaling service method on /// AmazonOpsWorks.</param> /// /// <exception cref="ResourceNotFoundException"/> /// <exception cref="ValidationException"/> public SetLoadBasedAutoScalingResponse SetLoadBasedAutoScaling(SetLoadBasedAutoScalingRequest setLoadBasedAutoScalingRequest) { IAsyncResult asyncResult = invokeSetLoadBasedAutoScaling(setLoadBasedAutoScalingRequest, null, null, true); return EndSetLoadBasedAutoScaling(asyncResult); }
IAsyncResult invokeSetLoadBasedAutoScaling(SetLoadBasedAutoScalingRequest request, AsyncCallback callback, object state, bool synchronized) { var marshaller = new SetLoadBasedAutoScalingRequestMarshaller(); var unmarshaller = SetLoadBasedAutoScalingResponseUnmarshaller.Instance; return Invoke(request, callback, state, synchronized, marshaller, unmarshaller, signer); }
/// <summary> /// Initiates the asynchronous execution of the SetLoadBasedAutoScaling operation. /// <seealso cref="Amazon.OpsWorks.IAmazonOpsWorks.SetLoadBasedAutoScaling"/> /// </summary> /// /// <param name="request">Container for the necessary parameters to execute the SetLoadBasedAutoScaling 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<SetLoadBasedAutoScalingResponse> SetLoadBasedAutoScalingAsync(SetLoadBasedAutoScalingRequest request, CancellationToken cancellationToken = default(CancellationToken)) { var marshaller = new SetLoadBasedAutoScalingRequestMarshaller(); var unmarshaller = SetLoadBasedAutoScalingResponseUnmarshaller.GetInstance(); var response = await Invoke<IRequest, SetLoadBasedAutoScalingRequest, SetLoadBasedAutoScalingResponse>(request, marshaller, unmarshaller, signer, cancellationToken) .ConfigureAwait(continueOnCapturedContext: false); return response; }
/// <summary> /// <para>Specify the load-based auto scaling configuration for a specified layer. For more information, see <a href="http://docs.aws.amazon.com/opsworks/latest/userguide/workinginstances-autoscaling.html">Managing Load with Time-based and Load-based /// Instances</a> .</para> <para><b>NOTE:</b>To use load-based auto scaling, you must create a set of load-based auto scaling instances. /// Load-based auto scaling operates only on the instances from that set, so you must ensure that you have created enough instances to handle /// the maximum anticipated load.</para> /// </summary> /// /// <param name="request">Container for the necessary parameters to execute the SetLoadBasedAutoScaling service method on /// AmazonOpsWorks.</param> /// /// <exception cref="T:Amazon.OpsWorks.Model.ResourceNotFoundException" /> /// <exception cref="T:Amazon.OpsWorks.Model.ValidationException" /> public SetLoadBasedAutoScalingResponse SetLoadBasedAutoScaling(SetLoadBasedAutoScalingRequest request) { var task = SetLoadBasedAutoScalingAsync(request); try { return task.Result; } catch(AggregateException e) { throw e.InnerException; } }