protected override void OnProcessRecord() { ServiceManagementProfile.Initialize(); var parameters = new LoadBalancerCreateParameters { Name = this.InternalLoadBalancerName, FrontendIPConfiguration = new FrontendIPConfiguration { Type = FrontendIPConfigurationType.Private, SubnetName = this.SubnetName, StaticVirtualNetworkIPAddress = this.StaticVNetIPAddress == null ? null : this.StaticVNetIPAddress.ToString() } }; ExecuteClientActionNewSM(null, CommandRuntime.ToString(), () => { var deploymentName = this.ComputeClient.Deployments.GetBySlot( this.ServiceName, DeploymentSlot.Production).Name; return(this.ComputeClient.LoadBalancers.Create( this.ServiceName, deploymentName, parameters)); }); }
protected PSArgument[] CreateLoadBalancerCreateParameters() { string serviceName = string.Empty; string deploymentName = string.Empty; LoadBalancerCreateParameters parameters = new LoadBalancerCreateParameters(); return(ConvertFromObjectsToArguments(new string[] { "ServiceName", "DeploymentName", "Parameters" }, new object[] { serviceName, deploymentName, parameters })); }
protected void ExecuteLoadBalancerCreateMethod(object[] invokeMethodInputParameters) { string serviceName = (string)ParseParameter(invokeMethodInputParameters[0]); string deploymentName = (string)ParseParameter(invokeMethodInputParameters[1]); LoadBalancerCreateParameters parameters = (LoadBalancerCreateParameters)ParseParameter(invokeMethodInputParameters[2]); var result = LoadBalancerClient.Create(serviceName, deploymentName, parameters); WriteObject(result); }
/// <summary> /// Add an internal load balancer to a an existing deployment. When /// used by an input endpoint, the internal load balancer will provide /// an additional private VIP that can be used for load balancing to /// the roles in this deployment. /// </summary> /// <param name='operations'> /// Reference to the /// Microsoft.WindowsAzure.Management.Compute.ILoadBalancerOperations. /// </param> /// <param name='serviceName'> /// Required. The name of the service. /// </param> /// <param name='deploymentName'> /// Required. The name of the deployment. /// </param> /// <param name='parameters'> /// Required. Parameters supplied to the Create Load Balancer operation. /// </param> /// <returns> /// The response body contains the status of the specified asynchronous /// operation, indicating whether it has succeeded, is inprogress, or /// has failed. Note that this status is distinct from the HTTP status /// code returned for the Get Operation Status operation itself. If /// the asynchronous operation succeeded, the response body includes /// the HTTP status code for the successful request. If the /// asynchronous operation failed, the response body includes the HTTP /// status code for the failed request and error information regarding /// the failure. /// </returns> public static OperationStatusResponse BeginCreating(this ILoadBalancerOperations operations, string serviceName, string deploymentName, LoadBalancerCreateParameters parameters) { return(Task.Factory.StartNew((object s) => { return ((ILoadBalancerOperations)s).BeginCreatingAsync(serviceName, deploymentName, parameters); } , operations, CancellationToken.None, TaskCreationOptions.None, TaskScheduler.Default).Unwrap().GetAwaiter().GetResult()); }
/// <summary> /// Add an internal load balancer to a an existing deployment. When /// used by an input endpoint, the internal load balancer will provide /// an additional private VIP that can be used for load balancing to /// the roles in this deployment. /// </summary> /// <param name='operations'> /// Reference to the /// Microsoft.WindowsAzure.Management.Compute.ILoadBalancerOperations. /// </param> /// <param name='serviceName'> /// Required. The name of the service. /// </param> /// <param name='deploymentName'> /// Required. The name of the deployment. /// </param> /// <param name='parameters'> /// Required. Parameters supplied to the Create Load Balancer operation. /// </param> /// <returns> /// The response body contains the status of the specified asynchronous /// operation, indicating whether it has succeeded, is inprogress, or /// has failed. Note that this status is distinct from the HTTP status /// code returned for the Get Operation Status operation itself. If /// the asynchronous operation succeeded, the response body includes /// the HTTP status code for the successful request. If the /// asynchronous operation failed, the response body includes the HTTP /// status code for the failed request and error information regarding /// the failure. /// </returns> public static Task <OperationStatusResponse> CreateAsync(this ILoadBalancerOperations operations, string serviceName, string deploymentName, LoadBalancerCreateParameters parameters) { return(operations.CreateAsync(serviceName, deploymentName, parameters, CancellationToken.None)); }
/// <summary> /// Add an internal load balancer to a an existing deployment. When /// used by an input endpoint, the internal load balancer will provide /// an additional private VIP that can be used for load balancing to /// the roles in this deployment. /// </summary> /// <param name='serviceName'> /// Required. The name of the service. /// </param> /// <param name='deploymentName'> /// Required. The name of the deployment. /// </param> /// <param name='parameters'> /// Required. Parameters supplied to the Create Load Balancer operation. /// </param> /// <param name='cancellationToken'> /// Cancellation token. /// </param> /// <returns> /// The response body contains the status of the specified asynchronous /// operation, indicating whether it has succeeded, is inprogress, or /// has failed. Note that this status is distinct from the HTTP status /// code returned for the Get Operation Status operation itself. If /// the asynchronous operation succeeded, the response body includes /// the HTTP status code for the successful request. If the /// asynchronous operation failed, the response body includes the HTTP /// status code for the failed request and error information regarding /// the failure. /// </returns> public async Task <OperationStatusResponse> BeginCreatingAsync(string serviceName, string deploymentName, LoadBalancerCreateParameters parameters, CancellationToken cancellationToken) { // Validate if (serviceName == null) { throw new ArgumentNullException("serviceName"); } if (deploymentName == null) { throw new ArgumentNullException("deploymentName"); } if (parameters == null) { throw new ArgumentNullException("parameters"); } // Tracing bool shouldTrace = TracingAdapter.IsEnabled; string invocationId = null; if (shouldTrace) { invocationId = TracingAdapter.NextInvocationId.ToString(); Dictionary <string, object> tracingParameters = new Dictionary <string, object>(); tracingParameters.Add("serviceName", serviceName); tracingParameters.Add("deploymentName", deploymentName); tracingParameters.Add("parameters", parameters); TracingAdapter.Enter(invocationId, this, "BeginCreatingAsync", tracingParameters); } // Construct URL string url = ""; url = url + "/"; if (this.Client.Credentials.SubscriptionId != null) { url = url + Uri.EscapeDataString(this.Client.Credentials.SubscriptionId); } url = url + "/services/hostedservices/"; url = url + Uri.EscapeDataString(serviceName); url = url + "/deployments/"; url = url + Uri.EscapeDataString(deploymentName); url = url + "/loadbalancers"; string baseUrl = this.Client.BaseUri.AbsoluteUri; // Trim '/' character from the end of baseUrl and beginning of url. if (baseUrl[baseUrl.Length - 1] == '/') { baseUrl = baseUrl.Substring(0, baseUrl.Length - 1); } if (url[0] == '/') { url = url.Substring(1); } url = baseUrl + "/" + url; url = url.Replace(" ", "%20"); // Create HTTP transport objects HttpRequestMessage httpRequest = null; try { httpRequest = new HttpRequestMessage(); httpRequest.Method = HttpMethod.Post; httpRequest.RequestUri = new Uri(url); // Set Headers httpRequest.Headers.Add("x-ms-version", "2015-04-01"); // Set Credentials cancellationToken.ThrowIfCancellationRequested(); await this.Client.Credentials.ProcessHttpRequestAsync(httpRequest, cancellationToken).ConfigureAwait(false); // Serialize Request string requestContent = null; XDocument requestDoc = new XDocument(); XElement loadBalancerElement = new XElement(XName.Get("LoadBalancer", "http://schemas.microsoft.com/windowsazure")); requestDoc.Add(loadBalancerElement); if (parameters.Name != null) { XElement nameElement = new XElement(XName.Get("Name", "http://schemas.microsoft.com/windowsazure")); nameElement.Value = parameters.Name; loadBalancerElement.Add(nameElement); } if (parameters.FrontendIPConfiguration != null) { XElement frontendIpConfigurationElement = new XElement(XName.Get("FrontendIpConfiguration", "http://schemas.microsoft.com/windowsazure")); loadBalancerElement.Add(frontendIpConfigurationElement); if (parameters.FrontendIPConfiguration.Type != null) { XElement typeElement = new XElement(XName.Get("Type", "http://schemas.microsoft.com/windowsazure")); typeElement.Value = parameters.FrontendIPConfiguration.Type; frontendIpConfigurationElement.Add(typeElement); } if (parameters.FrontendIPConfiguration.SubnetName != null) { XElement subnetNameElement = new XElement(XName.Get("SubnetName", "http://schemas.microsoft.com/windowsazure")); subnetNameElement.Value = parameters.FrontendIPConfiguration.SubnetName; frontendIpConfigurationElement.Add(subnetNameElement); } if (parameters.FrontendIPConfiguration.StaticVirtualNetworkIPAddress != null) { XElement staticVirtualNetworkIPAddressElement = new XElement(XName.Get("StaticVirtualNetworkIPAddress", "http://schemas.microsoft.com/windowsazure")); staticVirtualNetworkIPAddressElement.Value = parameters.FrontendIPConfiguration.StaticVirtualNetworkIPAddress; frontendIpConfigurationElement.Add(staticVirtualNetworkIPAddressElement); } } requestContent = requestDoc.ToString(); httpRequest.Content = new StringContent(requestContent, Encoding.UTF8); httpRequest.Content.Headers.ContentType = MediaTypeHeaderValue.Parse("application/xml"); // Send Request HttpResponseMessage httpResponse = null; try { if (shouldTrace) { TracingAdapter.SendRequest(invocationId, httpRequest); } cancellationToken.ThrowIfCancellationRequested(); httpResponse = await this.Client.HttpClient.SendAsync(httpRequest, cancellationToken).ConfigureAwait(false); if (shouldTrace) { TracingAdapter.ReceiveResponse(invocationId, httpResponse); } HttpStatusCode statusCode = httpResponse.StatusCode; if (statusCode != HttpStatusCode.Accepted) { cancellationToken.ThrowIfCancellationRequested(); CloudException ex = CloudException.Create(httpRequest, requestContent, httpResponse, await httpResponse.Content.ReadAsStringAsync().ConfigureAwait(false)); if (shouldTrace) { TracingAdapter.Error(invocationId, ex); } throw ex; } // Create Result OperationStatusResponse result = null; // Deserialize Response result = new OperationStatusResponse(); result.StatusCode = statusCode; if (httpResponse.Headers.Contains("x-ms-request-id")) { result.RequestId = httpResponse.Headers.GetValues("x-ms-request-id").FirstOrDefault(); } if (shouldTrace) { TracingAdapter.Exit(invocationId, result); } return(result); } finally { if (httpResponse != null) { httpResponse.Dispose(); } } } finally { if (httpRequest != null) { httpRequest.Dispose(); } } }
/// <summary> /// Add an internal load balancer to a an existing deployment. When /// used by an input endpoint, the internal load balancer will provide /// an additional private VIP that can be used for load balancing to /// the roles in this deployment. /// </summary> /// <param name='serviceName'> /// Required. The name of the service. /// </param> /// <param name='deploymentName'> /// Required. The name of the deployment. /// </param> /// <param name='parameters'> /// Required. Parameters supplied to the Create Load Balancer operation. /// </param> /// <param name='cancellationToken'> /// Cancellation token. /// </param> /// <returns> /// The response body contains the status of the specified asynchronous /// operation, indicating whether it has succeeded, is inprogress, or /// has failed. Note that this status is distinct from the HTTP status /// code returned for the Get Operation Status operation itself. If /// the asynchronous operation succeeded, the response body includes /// the HTTP status code for the successful request. If the /// asynchronous operation failed, the response body includes the HTTP /// status code for the failed request and error information regarding /// the failure. /// </returns> public async Task <OperationStatusResponse> CreateAsync(string serviceName, string deploymentName, LoadBalancerCreateParameters parameters, CancellationToken cancellationToken) { ComputeManagementClient client = this.Client; bool shouldTrace = TracingAdapter.IsEnabled; string invocationId = null; if (shouldTrace) { invocationId = TracingAdapter.NextInvocationId.ToString(); Dictionary <string, object> tracingParameters = new Dictionary <string, object>(); tracingParameters.Add("serviceName", serviceName); tracingParameters.Add("deploymentName", deploymentName); tracingParameters.Add("parameters", parameters); TracingAdapter.Enter(invocationId, this, "CreateAsync", tracingParameters); } cancellationToken.ThrowIfCancellationRequested(); OperationStatusResponse response = await client.LoadBalancers.BeginCreatingAsync(serviceName, deploymentName, parameters, cancellationToken).ConfigureAwait(false); if (response.Status == OperationStatus.Succeeded) { return(response); } cancellationToken.ThrowIfCancellationRequested(); OperationStatusResponse result = await client.GetOperationStatusAsync(response.RequestId, cancellationToken).ConfigureAwait(false); int delayInSeconds = 30; if (client.LongRunningOperationInitialTimeout >= 0) { delayInSeconds = client.LongRunningOperationInitialTimeout; } while (result.Status == OperationStatus.InProgress) { cancellationToken.ThrowIfCancellationRequested(); await TaskEx.Delay(delayInSeconds * 1000, cancellationToken).ConfigureAwait(false); cancellationToken.ThrowIfCancellationRequested(); result = await client.GetOperationStatusAsync(response.RequestId, cancellationToken).ConfigureAwait(false); delayInSeconds = 30; if (client.LongRunningOperationRetryTimeout >= 0) { delayInSeconds = client.LongRunningOperationRetryTimeout; } } if (shouldTrace) { TracingAdapter.Exit(invocationId, result); } if (result.Status != OperationStatus.Succeeded) { if (result.Error != null) { CloudException ex = new CloudException(result.Error.Code + " : " + result.Error.Message); ex.Error = new CloudError(); ex.Error.Code = result.Error.Code; ex.Error.Message = result.Error.Message; if (shouldTrace) { TracingAdapter.Error(invocationId, ex); } throw ex; } else { CloudException ex = new CloudException(""); if (shouldTrace) { TracingAdapter.Error(invocationId, ex); } throw ex; } } return(result); }
protected override void OnProcessRecord() { ServiceManagementProfile.Initialize(); var parameters = new LoadBalancerCreateParameters { Name = this.InternalLoadBalancerName, FrontendIPConfiguration = new FrontendIPConfiguration { Type = FrontendIPConfigurationType.Private, SubnetName = this.SubnetName, StaticVirtualNetworkIPAddress = this.StaticVNetIPAddress == null ? null : this.StaticVNetIPAddress.ToString() } }; ExecuteClientActionNewSM(null, CommandRuntime.ToString(), () => { var deploymentName = this.ComputeClient.Deployments.GetBySlot( this.ServiceName, DeploymentSlot.Production).Name; return this.ComputeClient.LoadBalancers.Create( this.ServiceName, deploymentName, parameters); }); }