public void AzureCertificateSettingTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); // Create a certificate string cerFileName = Convert.ToString(TestContext.DataRow["cerFileName"]); X509Certificate2 certCreated = Utilities.CreateCertificate(password); byte[] certData2 = certCreated.Export(X509ContentType.Cert); File.WriteAllBytes(cerFileName, certData2); // Install the .cer file to local machine. StoreLocation certStoreLocation = StoreLocation.CurrentUser; StoreName certStoreName = StoreName.My; X509Certificate2 installedCert = Utilities.InstallCert(cerFileName, certStoreLocation, certStoreName); PSObject certToUpload = vmPowershellCmdlets.RunPSScript( String.Format("Get-Item cert:\\{0}\\{1}\\{2}", certStoreLocation.ToString(), certStoreName.ToString(), installedCert.Thumbprint))[0]; try { vmPowershellCmdlets.NewAzureService(serviceName, locationName); vmPowershellCmdlets.AddAzureCertificate(serviceName, certToUpload); CertificateSettingList certList = new CertificateSettingList(); certList.Add(vmPowershellCmdlets.NewAzureCertificateSetting(certStoreName.ToString(), installedCert.Thumbprint)); AzureVMConfigInfo azureVMConfigInfo = new AzureVMConfigInfo(vmName, InstanceSize.Small, imageName); AzureProvisioningConfigInfo azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, certList, username, password); PersistentVMConfigInfo persistentVMConfigInfo = new PersistentVMConfigInfo(azureVMConfigInfo, azureProvisioningConfig, null, null); PersistentVM vm = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo); vmPowershellCmdlets.NewAzureVM(serviceName, new[] { vm }); PersistentVMRoleContext result = vmPowershellCmdlets.GetAzureVM(vmName, serviceName); Console.WriteLine("{0} is created", result.Name); pass = true; } catch (Exception e) { pass = false; Assert.Fail(e.ToString()); } finally { Utilities.UninstallCert(installedCert, certStoreLocation, certStoreName); } }
public void AzureSubnetTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); try { //vmPowershellCmdlets.NewAzureService(serviceName, serviceName, locationName); var azureVMConfigInfo = new AzureVMConfigInfo(vmName, InstanceSize.Small.ToString(), imageName); var azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo = new PersistentVMConfigInfo(azureVMConfigInfo, azureProvisioningConfig, null, null); vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo); string [] subs = {"subnet1", "subnet2", "subnet3"}; PersistentVM vm = vmPowershellCmdlets.SetAzureSubnet(vmPowershellCmdlets.AddAzureProvisioningConfig(azureProvisioningConfig), subs); SubnetNamesCollection subnets = vmPowershellCmdlets.GetAzureSubnet(vm); foreach (string subnet in subnets) { Console.WriteLine("Subnet: {0}", subnet); } CollectionAssert.AreEqual(subnets, subs); pass = true; } catch (Exception e) { Console.WriteLine("Exception occurred: {0}", e); throw; } }
public void RestartAzureVMTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); try { DateTime prevTime = DateTime.Now; // starting the test. var azureVMConfigInfo1 = new AzureVMConfigInfo(vmName1, InstanceSize.Small.ToString(), imageName); var azureProvisioningConfig1 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig1, null, null); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); PersistentVM[] VMs = { persistentVM1 }; Utilities.RecordTimeTaken(ref prevTime); vmPowershellCmdlets.NewAzureVM(svcName, VMs); Utilities.RecordTimeTaken(ref prevTime); Console.WriteLine("The VM is successfully created: {0}", vmName1); WaitForReadyState(svcName, vmName1); Console.WriteLine(vmPowershellCmdlets.GetAzureVM(vmName1, svcName).InstanceStatus); Utilities.RecordTimeTaken(ref prevTime); vmPowershellCmdlets.StopAzureVM(vmName1, svcName, true); Utilities.RecordTimeTaken(ref prevTime); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedProvisionedState })); Utilities.RecordTimeTaken(ref prevTime); vmPowershellCmdlets.StartAzureVM(vmName1, svcName); Utilities.RecordTimeTaken(ref prevTime); WaitForReadyState(svcName, vmName1); Utilities.RecordTimeTaken(ref prevTime); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { readyState })); pass = true; } catch (Exception e) { Console.WriteLine(e.ToString()); throw; } finally { if ((cleanupIfPassed && pass) || (cleanupIfFailed && !pass)) { vmPowershellCmdlets.RemoveAzureService(svcName); } } }
public void RestartAzureVMAfterDeallocateTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); try { DateTime prevTime = DateTime.Now; // starting the test. var azureVMConfigInfo1 = new AzureVMConfigInfo(vmName1, InstanceSize.Small.ToString(), imageName); var azureProvisioningConfig1 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig1, null, null); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); PersistentVM[] VMs = { persistentVM1 }; Utilities.RecordTimeTaken(ref prevTime); vmPowershellCmdlets.NewAzureVM(svcName, VMs); Utilities.RecordTimeTaken(ref prevTime); Console.WriteLine("The VM is successfully created: {0}", vmName1); WaitForReadyState(svcName, vmName1); Console.WriteLine(vmPowershellCmdlets.GetAzureVM(vmName1, svcName).InstanceStatus); Utilities.RecordTimeTaken(ref prevTime); vmPowershellCmdlets.StopAzureVM(vmName1, svcName, false, true); Utilities.RecordTimeTaken(ref prevTime); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); for (int i = 0 ; i < 10 ; i++) { try { Utilities.RecordTimeTaken(ref prevTime); vmPowershellCmdlets.StartAzureVM(vmName1, svcName); Utilities.RecordTimeTaken(ref prevTime); break; } catch (Exception e) { Console.WriteLine(e.ToString()); Thread.Sleep(60 * 1000); } } WaitForReadyState(svcName, vmName1); Utilities.RecordTimeTaken(ref prevTime); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new [] { readyState })); var vm = vmPowershellCmdlets.GetAzureVM(vmName1, svcName).VM; var vmSizeConfig = new SetAzureVMSizeConfig(InstanceSize.Medium.ToString()); vmSizeConfig.Vm = vm; vm = vmPowershellCmdlets.SetAzureVMSize(vmSizeConfig); vmPowershellCmdlets.UpdateAzureVM(vmName1, svcName, vm); vm = vmPowershellCmdlets.GetAzureVM(vmName1, svcName).VM; Console.WriteLine("RoleSize: {0}", vm.RoleSize); Assert.AreEqual(InstanceSize.Medium.ToString(), vm.RoleSize); pass = true; } catch (Exception e) { Console.WriteLine(e.ToString()); throw; } finally { if ((cleanupIfPassed && pass) || (cleanupIfFailed && !pass)) { vmPowershellCmdlets.RemoveAzureService(svcName); } } }
public void AdvancedProvisioning() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); string newAzureVM1Name = Utilities.GetUniqueShortName(vmNamePrefix); string newAzureVM2Name = Utilities.GetUniqueShortName(vmNamePrefix); if (string.IsNullOrEmpty(imageName)) { imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false); } vmPowershellCmdlets.NewAzureService(serviceName, serviceName, locationName); AzureVMConfigInfo azureVMConfigInfo1 = new AzureVMConfigInfo(newAzureVM1Name, InstanceSize.ExtraSmall, imageName); AzureVMConfigInfo azureVMConfigInfo2 = new AzureVMConfigInfo(newAzureVM2Name, InstanceSize.ExtraSmall, imageName); AzureProvisioningConfigInfo azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); AddAzureDataDiskConfig azureDataDiskConfigInfo = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk1", 0); AzureEndPointConfigInfo azureEndPointConfigInfo = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.CustomProbe, ProtocolInfo.tcp, 80, 80, "web", "lbweb", 80, ProtocolInfo.http, @"/", null, null); PersistentVMConfigInfo persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig, azureDataDiskConfigInfo, azureEndPointConfigInfo); PersistentVMConfigInfo persistentVMConfigInfo2 = new PersistentVMConfigInfo(azureVMConfigInfo2, azureProvisioningConfig, azureDataDiskConfigInfo, azureEndPointConfigInfo); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); PersistentVM persistentVM2 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo2); PersistentVM[] VMs = { persistentVM1, persistentVM2 }; vmPowershellCmdlets.NewAzureVM(serviceName, VMs); // Cleanup vmPowershellCmdlets.RemoveAzureVM(newAzureVM1Name, serviceName); vmPowershellCmdlets.RemoveAzureVM(newAzureVM2Name, serviceName); Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(newAzureVM1Name, serviceName)); Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(newAzureVM2Name, serviceName)); pass = true; }
public void StopAzureVMsStayProvisionedTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); try { // starting the test. var azureVMConfigInfo1 = new AzureVMConfigInfo(vmName1, InstanceSize.ExtraSmall.ToString(), imageName); var azureProvisioningConfig1 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig1, null, null); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); var azureVMConfigInfo2 = new AzureVMConfigInfo(vmName2, InstanceSize.Small.ToString(), imageName); var azureProvisioningConfig2 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo2 = new PersistentVMConfigInfo(azureVMConfigInfo2, azureProvisioningConfig2, null, null); PersistentVM persistentVM2 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo2); PersistentVM[] VMs = { persistentVM1, persistentVM2 }; vmPowershellCmdlets.NewAzureVM(svcName, VMs); Console.WriteLine("The VM is successfully created: {0}", vmName1); Console.WriteLine("The VM is successfully created: {0}", vmName2); WaitForStartingState(svcName, vmName1); WaitForStartingState(svcName, vmName2); vmPowershellCmdlets.StopAzureVM("*", svcName, true, true); WaitForStoppedState(svcName, vmName1); WaitForStoppedState(svcName, vmName2); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedProvisionedState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { stoppedProvisionedState })); pass = true; } catch (Exception e) { Console.WriteLine(e.ToString()); throw; } finally { if ((cleanupIfPassed && pass) || (cleanupIfFailed && !pass)) { vmPowershellCmdlets.RemoveAzureService(svcName); } } }
public void RemoveAndCreateDeploymentWithReservedIP() { try { vmPowershellCmdlets.NewAzureAffinityGroup(affName1, locationName, null, null); string newAzureVM1Name = Utilities.GetUniqueShortName(vmNamePrefix); string newAzureVM2Name = Utilities.GetUniqueShortName(vmNamePrefix); if (string.IsNullOrEmpty(imageName)) { imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false); } AzureVMConfigInfo azureVMConfigInfo1 = new AzureVMConfigInfo(newAzureVM1Name, InstanceSize.ExtraSmall, imageName); AzureVMConfigInfo azureVMConfigInfo2 = new AzureVMConfigInfo(newAzureVM2Name, InstanceSize.Small, imageName); AzureProvisioningConfigInfo azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); AddAzureDataDiskConfig azureDataDiskConfigInfo = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk1", 0); AzureEndPointConfigInfo azureEndPointConfigInfo = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.CustomProbe, ProtocolInfo.tcp, 80, 80, "web", "lbweb", 80, ProtocolInfo.http, @"/", null, null); PersistentVMConfigInfo persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig, azureDataDiskConfigInfo, azureEndPointConfigInfo); PersistentVMConfigInfo persistentVMConfigInfo2 = new PersistentVMConfigInfo(azureVMConfigInfo2, azureProvisioningConfig, azureDataDiskConfigInfo, azureEndPointConfigInfo); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); PersistentVM persistentVM2 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo2); // Create a new deployment vmPowershellCmdlets.NewAzureVM(svcNameLoc, new [] {persistentVM1}, locationName); // Reserve the ip of the deployment vmPowershellCmdlets.NewAzureReservedIP(rsvIpName1, affName1, svcNameLoc, svcNameLoc, rsvIPLabel); // Get the deployment and verify var deploymentReturned = vmPowershellCmdlets.GetAzureDeployment(svcNameLoc); Utilities.PrintContext(deploymentReturned); // Verify the reserved ip var reservedIPReturned = vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1)[0]; Verify.AzureReservedIPInUse(reservedIPReturned, rsvIpName1, rsvIPLabel, affName1, deploymentReturned.VirtualIPs[0].Address, deploymentReturned.DeploymentName, deploymentReturned.ServiceName); // Remove the VMs and verify Console.WriteLine("\nRemoving VMs...\n"); vmPowershellCmdlets.RemoveAzureVM(newAzureVM1Name, svcNameLoc); // Verify the reserved ip reservedIPReturned = vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1)[0]; Verify.AzureReservedIPNotInUse(reservedIPReturned, rsvIpName1, rsvIPLabel, affName1); // Remove the service Console.WriteLine("\nRemoving the service...\n"); vmPowershellCmdlets.RemoveAzureService(svcNameLoc); // Verify the reserved ip reservedIPReturned = vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1)[0]; Verify.AzureReservedIPNotInUse(reservedIPReturned, rsvIpName1, rsvIPLabel, affName1); // Re-deploy the VM and verify vmPowershellCmdlets.NewAzureVMWithReservedIP(svcNameAG, new[] { persistentVM2 },rsvIpName1, affName1); // Get the deployment and verify deploymentReturned = vmPowershellCmdlets.GetAzureDeployment(svcNameAG); Utilities.PrintContext(deploymentReturned); // Verify the reserved ip reservedIPReturned = vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1)[0]; Verify.AzureReservedIPInUse(reservedIPReturned, rsvIpName1, rsvIPLabel, affName1, deploymentReturned.VirtualIPs[0].Address, deploymentReturned.DeploymentName, deploymentReturned.ServiceName); // Remove the VM vmPowershellCmdlets.RemoveAzureService(svcNameAG); // Remove the reserved IP and verify vmPowershellCmdlets.RemoveAzureReservedIP(rsvIpName1); Utilities.VerifyFailure( () => vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1), ResourceNotFoundException); pass = true; } catch (Exception e) { Console.WriteLine(e); throw; } }
public void NewAzureVMDomainJoinTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); var newAzureVMName = Utilities.GetUniqueShortName(vmNamePrefix); const string joinDomainStr = "www.microsoft.com"; const string domainStr = "microsoft.com"; const string domainUser = "******"; const string domainPassword = "******"; try { if (string.IsNullOrEmpty(imageName)) { imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] {"Windows"}, false); } vmPowershellCmdlets.NewAzureService(serviceName, serviceName, locationName); var azureVMConfigInfo = new AzureVMConfigInfo(newAzureVMName, InstanceSize.Small, imageName); var azureProvisioningConfig = new AzureProvisioningConfigInfo("WindowsDomain", username, password, joinDomainStr, domainStr, domainUser, domainPassword); var persistentVMConfigInfo = new PersistentVMConfigInfo(azureVMConfigInfo, azureProvisioningConfig, null, null); PersistentVM persistentVM = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo); PersistentVM[] VMs = {persistentVM}; vmPowershellCmdlets.NewAzureVM(serviceName, VMs); // Todo: Check the domain of the VM pass = true; } catch (Exception e) { Console.WriteLine(e.ToString()); throw; } }
public void StopAzureVMOnStoppedVMTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); try { // starting the test. AzureVMConfigInfo azureVMConfigInfo1 = new AzureVMConfigInfo(vmName1, InstanceSize.Small, imageName); AzureProvisioningConfigInfo azureProvisioningConfig1 = new AzureProvisioningConfigInfo(OS.Windows, username, password); PersistentVMConfigInfo persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig1, null, null); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); PersistentVM[] VMs = { persistentVM1 }; vmPowershellCmdlets.NewAzureVM(svcName, VMs); Console.WriteLine("The VM is successfully created: {0}", vmName1); WaitForStartingState(svcName, vmName1); // Stop the VM with StayProvisioned vmPowershellCmdlets.StopAzureVM(vmName1, svcName, true); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedProvisionedState })); // Try to stop it again. Should not change the state. vmPowershellCmdlets.StopAzureVM(vmName1, svcName, true); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedProvisionedState })); try { // Try to stop without any option. Should fail with a warning message. vmPowershellCmdlets.StopAzureVM(vmName1, svcName); Assert.Fail(); } catch (Exception e) { if (e is AssertFailedException) { throw; } else { Console.WriteLine(e.ToString()); } } Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedProvisionedState })); // Stop the VM with Force option. Should deallocate the VM. vmPowershellCmdlets.StopAzureVM(vmName1, svcName, false, true); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); pass = true; } catch (Exception e) { Console.WriteLine(e.ToString()); throw; } finally { if ((cleanupIfPassed && pass) || (cleanupIfFailed && !pass)) { vmPowershellCmdlets.RemoveAzureService(svcName); } } }
public void StopAzureVMsDeprovisionedTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); try { // starting the test. var azureVMConfigInfo1 = new AzureVMConfigInfo(vmName1, InstanceSize.ExtraSmall.ToString(), imageName); var azureProvisioningConfig1 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig1, null, null); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); var azureVMConfigInfo2 = new AzureVMConfigInfo(vmName2, InstanceSize.Small.ToString(), imageName); var azureProvisioningConfig2 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo2 = new PersistentVMConfigInfo(azureVMConfigInfo2, azureProvisioningConfig2, null, null); PersistentVM persistentVM2 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo2); PersistentVM[] VMs = { persistentVM1, persistentVM2 }; vmPowershellCmdlets.NewAzureVM(svcName, VMs); Console.WriteLine("The VM is successfully created: {0}", vmName1); Console.WriteLine("The VM is successfully created: {0}", vmName2); WaitForReadyState(svcName, vmName1); WaitForReadyState(svcName, vmName2); var vm1 = vmPowershellCmdlets.GetAzureVM(vmName1, svcName); var vm2 = vmPowershellCmdlets.GetAzureVM(vmName2, svcName); Assert.AreEqual(vm1.HostName, vmName1); Assert.AreEqual(vm2.HostName, vmName2); // Stop and deallocate the VMs vmPowershellCmdlets.StopAzureVM("*", svcName, false, true); WaitForStoppedState(svcName, vmName1); WaitForStoppedState(svcName, vmName2); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { stoppedDeallocatedState })); // Start the VMs Utilities.RetryActionUntilSuccess(() => vmPowershellCmdlets.StartAzureVM("*", svcName), "HTTP Status Code: 409", 10, 60); //StartAzureVMs("*", svcName); WaitForStartedState(svcName, vmName1); WaitForStartedState(svcName, vmName2); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { readyState, provisioningState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { readyState, provisioningState })); try { // Try to Stop and deallocate VM2 without Force. Should fail and give a warning message. vmPowershellCmdlets.StopAzureVM("*", svcName); Assert.Fail(); } catch (Exception e) { if (e is AssertFailedException) { throw; } else { Console.WriteLine(e.ToString()); } } Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { readyState, provisioningState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { readyState, provisioningState })); // Stop and deallocate VMs vmPowershellCmdlets.StopAzureVM("*", svcName, false, true); WaitForStoppedState(svcName, vmName1); WaitForStoppedState(svcName, vmName2); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { stoppedDeallocatedState })); pass = true; } catch (Exception e) { Console.WriteLine(e.ToString()); throw; } finally { if ((cleanupIfPassed && pass) || (cleanupIfFailed && !pass)) { vmPowershellCmdlets.RemoveAzureService(svcName); } } }
public void StopAzureVMDeprovisionedTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); try { // starting the test. AzureVMConfigInfo azureVMConfigInfo1 = new AzureVMConfigInfo(vmName1, InstanceSize.ExtraSmall, imageName); AzureProvisioningConfigInfo azureProvisioningConfig1 = new AzureProvisioningConfigInfo(OS.Windows, username, password); PersistentVMConfigInfo persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig1, null, null); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); AzureVMConfigInfo azureVMConfigInfo2 = new AzureVMConfigInfo(vmName2, InstanceSize.Small, imageName); AzureProvisioningConfigInfo azureProvisioningConfig2 = new AzureProvisioningConfigInfo(OS.Windows, username, password); PersistentVMConfigInfo persistentVMConfigInfo2 = new PersistentVMConfigInfo(azureVMConfigInfo2, azureProvisioningConfig2, null, null); PersistentVM persistentVM2 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo2); PersistentVM[] VMs = { persistentVM1, persistentVM2 }; vmPowershellCmdlets.NewAzureVM(svcName, VMs); Console.WriteLine("The VM is successfully created: {0}", vmName1); Console.WriteLine("The VM is successfully created: {0}", vmName2); // Stop and deallocate VM1 vmPowershellCmdlets.StopAzureVM(vmName1, svcName); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); WaitForStartedState(svcName, vmName2); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { readyState, provisioningState })); try { // Try to Stop and deallocate VM2 without Force. Should fail and give a warning message. vmPowershellCmdlets.RunPSScript(string.Format("{0} -ServiceName {1} -Name {2} | {3}", Utilities.GetAzureVMCmdletName, svcName, vmName2, Utilities.StopAzureVMCmdletName)); Assert.Fail(); } catch (Exception e) { if (e is AssertFailedException) { throw; } else { Console.WriteLine(e.ToString()); } } Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { readyState, provisioningState })); // Stop and deallocate VM2 vmPowershellCmdlets.StopAzureVM(vmName2, svcName, false, true); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { stoppedDeallocatedState })); pass = true; } catch (Exception e) { Console.WriteLine(e.ToString()); throw; } finally { if ((cleanupIfPassed && pass) || (cleanupIfFailed && !pass)) { vmPowershellCmdlets.RemoveAzureService(svcName); } } }
public void CreateDeploymentAndReserveIPTest() { try { string newAzureVM1Name = Utilities.GetUniqueShortName(vmNamePrefix); string newAzureVM2Name = Utilities.GetUniqueShortName(vmNamePrefix); if (string.IsNullOrEmpty(imageName)) { imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false); } var azureVMConfigInfo1 = new AzureVMConfigInfo(newAzureVM1Name, InstanceSize.ExtraSmall.ToString(), imageName); var azureVMConfigInfo2 = new AzureVMConfigInfo(newAzureVM2Name, InstanceSize.Small.ToString(), imageName); var azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); var azureDataDiskConfigInfo = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk1", 0); var azureEndPointConfigInfo = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.CustomProbe, ProtocolInfo.tcp, 80, 80, "web", "lbweb", 80, ProtocolInfo.http, @"/", null, null); var persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig, azureDataDiskConfigInfo, azureEndPointConfigInfo); var persistentVMConfigInfo2 = new PersistentVMConfigInfo(azureVMConfigInfo2, azureProvisioningConfig, azureDataDiskConfigInfo, azureEndPointConfigInfo); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); PersistentVM persistentVM2 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo2); PersistentVM[] VMs = { persistentVM1, persistentVM2 }; // Create a new deployment vmPowershellCmdlets.NewAzureVM(svcNameLoc, VMs, locationName); // Get the deployment and verify var deploymentReturned = vmPowershellCmdlets.GetAzureDeployment(svcNameLoc); Utilities.PrintContext(deploymentReturned); // Reserve the ip of the deployment vmPowershellCmdlets.NewAzureAffinityGroup(affName1, locationName, null, null); vmPowershellCmdlets.NewAzureReservedIP(rsvIpName1, affName1, svcNameLoc, deploymentReturned.DeploymentName, rsvIPLabel); // Get the deployment and verify deploymentReturned = vmPowershellCmdlets.GetAzureDeployment(svcNameLoc); Utilities.PrintContext(deploymentReturned); Assert.AreEqual(rsvIpName1, deploymentReturned.ReservedIPName, "Reserved IP names are different!"); // Verify the reserved ip var reservedIPReturned = vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1)[0]; Verify.AzureReservedIPInUse(reservedIPReturned, rsvIpName1, rsvIPLabel, affName1, deploymentReturned.VirtualIPs[0].Address, deploymentReturned.DeploymentName, deploymentReturned.ServiceName); // Remove the first VM and verify the reserved ip Console.WriteLine("Removing the first VM..."); vmPowershellCmdlets.RemoveAzureVM(newAzureVM1Name, svcNameLoc); deploymentReturned = vmPowershellCmdlets.GetAzureDeployment(svcNameLoc); Utilities.PrintContext(deploymentReturned); Assert.AreEqual(rsvIpName1, deploymentReturned.ReservedIPName, "Reserved IP names are different!"); // Verify the reserved ip reservedIPReturned = vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1)[0]; Verify.AzureReservedIPInUse(reservedIPReturned, rsvIpName1, rsvIPLabel, affName1, deploymentReturned.VirtualIPs[0].Address, deploymentReturned.DeploymentName, deploymentReturned.ServiceName); // Remove the second VM and verify the reserved ip Console.WriteLine("Removing the second VM..."); vmPowershellCmdlets.RemoveAzureVM(newAzureVM2Name, svcNameLoc); // Verify the reserved ip reservedIPReturned = vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1)[0]; Verify.AzureReservedIPNotInUse(reservedIPReturned, rsvIpName1, rsvIPLabel, affName1); // Remove the reserved IP and verify vmPowershellCmdlets.RemoveAzureReservedIP(rsvIpName1); Utilities.VerifyFailure( () => vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1), ResourceNotFoundException); pass = true; } catch (Exception e) { Console.WriteLine(e); throw; } }
public void HiMemVMSizeTest() { string serviceName = Utilities.GetUniqueShortName(serviceNamePrefix); string vmName = Utilities.GetUniqueShortName(vmNamePrefix); try { // New-AzureQuickVM test for VM size 'A5' vmPowershellCmdlets.NewAzureQuickVM(OS.Windows, vmName, serviceName, imageName, username, password, locationName, HiMemInstanceSize.A5.ToString()); PersistentVMRoleContext result = vmPowershellCmdlets.GetAzureVM(vmName, serviceName); RoleSizeContext returnedSize = vmPowershellCmdlets.GetAzureRoleSize(result.InstanceSize)[0]; Assert.AreEqual(HiMemInstanceSize.A5.ToString(), returnedSize.InstanceSize); Console.WriteLine("VM size, {0}, is verified for New-AzureQuickVM", HiMemInstanceSize.A5); vmPowershellCmdlets.RemoveAzureService(serviceName); // New-AzureQuickVM test for VM size 'A6' vmPowershellCmdlets.NewAzureQuickVM(OS.Windows, vmName, serviceName, imageName, username, password, locationName, HiMemInstanceSize.A6.ToString()); result = vmPowershellCmdlets.GetAzureVM(vmName, serviceName); returnedSize = vmPowershellCmdlets.GetAzureRoleSize(result.InstanceSize)[0]; Assert.AreEqual(HiMemInstanceSize.A6.ToString(), returnedSize.InstanceSize); Console.WriteLine("VM size, {0}, is verified for New-AzureQuickVM", HiMemInstanceSize.A6); vmPowershellCmdlets.RemoveAzureService(serviceName); // New-AzureVMConfig test for VM size 'A7' var azureVMConfigInfo = new AzureVMConfigInfo(vmName, HiMemInstanceSize.A7.ToString(), imageName); var azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo = new PersistentVMConfigInfo(azureVMConfigInfo, azureProvisioningConfig, null, null); PersistentVM vm = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo); vmPowershellCmdlets.NewAzureVM(serviceName, new[] { vm }, locationName); result = vmPowershellCmdlets.GetAzureVM(vmName, serviceName); returnedSize = vmPowershellCmdlets.GetAzureRoleSize(result.InstanceSize)[0]; Assert.AreEqual(HiMemInstanceSize.A7.ToString(), returnedSize.InstanceSize); Console.WriteLine("VM size, {0}, is verified for New-AzureVMConfig", HiMemInstanceSize.A7); // Set-AzureVMSize test for Hi-MEM VM size (A7 to A6) vmPowershellCmdlets.SetVMSize(vmName, serviceName, new SetAzureVMSizeConfig(HiMemInstanceSize.A6.ToString())); result = vmPowershellCmdlets.GetAzureVM(vmName, serviceName); returnedSize = vmPowershellCmdlets.GetAzureRoleSize(result.InstanceSize)[0]; Assert.AreEqual(HiMemInstanceSize.A6.ToString(), returnedSize.InstanceSize); Console.WriteLine("SetVMSize is verified from A7 to A6"); // Set-AzureVMSize test for Hi-MEM VM size (A6 to A5) vmPowershellCmdlets.SetVMSize(vmName, serviceName, new SetAzureVMSizeConfig(HiMemInstanceSize.A5.ToString())); result = vmPowershellCmdlets.GetAzureVM(vmName, serviceName); returnedSize = vmPowershellCmdlets.GetAzureRoleSize(result.InstanceSize)[0]; Assert.AreEqual(HiMemInstanceSize.A5.ToString(), returnedSize.InstanceSize); Console.WriteLine("SetVMSize is verified from A6 to A5"); pass = true; } catch (Exception e) { pass = false; Console.WriteLine("Exception occurred: {0}", e.ToString()); throw; } finally { if (!Utilities.CheckRemove(vmPowershellCmdlets.GetAzureService, serviceName)) { if ((cleanupIfFailed && !pass) || (cleanupIfPassed && pass)) { vmPowershellCmdlets.RemoveAzureService(serviceName); } } } }
public void CreateDeploymentWithReservedIPNegativeTest() { try { string newAzureVM1Name = Utilities.GetUniqueShortName(vmNamePrefix); string newAzureVM2Name = Utilities.GetUniqueShortName(vmNamePrefix); if (string.IsNullOrEmpty(imageName)) { imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false); } var azureVMConfigInfo1 = new AzureVMConfigInfo(newAzureVM1Name, InstanceSize.ExtraSmall.ToString(), imageName); var azureVMConfigInfo2 = new AzureVMConfigInfo(newAzureVM2Name, InstanceSize.Small.ToString(), imageName); var azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); var azureDataDiskConfigInfo = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk1", 0); var azureEndPointConfigInfo = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.CustomProbe, ProtocolInfo.tcp, 80, 80, "web", "lbweb", 80, ProtocolInfo.http, @"/", null, null); var persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig, azureDataDiskConfigInfo, azureEndPointConfigInfo); var persistentVMConfigInfo2 = new PersistentVMConfigInfo(azureVMConfigInfo2, azureProvisioningConfig, azureDataDiskConfigInfo, null); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); PersistentVM persistentVM2 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo2); PersistentVM[] VMs = { persistentVM1, persistentVM2 }; // AG1 on location 1 vmPowershellCmdlets.NewAzureAffinityGroup(affName1, locationName, null, null); // AG2 on location 2 var anotherLocation = GetLocation("PersistentVMRole", locationName); vmPowershellCmdlets.NewAzureAffinityGroup(affName2, anotherLocation.Name, null, null); // Reserve an ip on AG1 vmPowershellCmdlets.NewAzureReservedIP(rsvIpName1, affName2); var rsvIPreturned = vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1)[0]; Verify.AzureReservedIPNotInUse(rsvIPreturned, rsvIpName1, null, affName2); // Try to create a new deployment with AG2 and the reserved IP Utilities.VerifyFailure( () => vmPowershellCmdlets.NewAzureVMWithReservedIP(svcNameAG, VMs, rsvIpName1, affName1), BadRequestException); // Create a new deployment with location 2, and then reserved the IP of it vmPowershellCmdlets.NewAzureVM(svcNameLoc, VMs, locationName); Utilities.VerifyFailure( () => vmPowershellCmdlets.NewAzureReservedIP(rsvIpName2, affName2, svcNameLoc, svcNameLoc), BadRequestException); // Remove the reserved IP and verify vmPowershellCmdlets.RemoveAzureReservedIP(rsvIpName1); Utilities.VerifyFailure( () => vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1), ResourceNotFoundException); pass = true; } catch (Exception e) { Console.WriteLine(e); throw; } }
internal PersistentVM GetPersistentVM(PersistentVMConfigInfo configInfo) { PersistentVM vm = null; if (null != configInfo) { if (configInfo.VmConfig != null) { vm = NewAzureVMConfig(configInfo.VmConfig); } if (configInfo.ProvConfig != null) { configInfo.ProvConfig.Vm = vm; vm = AddAzureProvisioningConfig(configInfo.ProvConfig); } if (configInfo.DiskConfig != null) { configInfo.DiskConfig.Vm = vm; vm = AddAzureDataDisk(configInfo.DiskConfig); } if (configInfo.EndPointConfig != null) { configInfo.EndPointConfig.Vm = vm; vm = AddAzureEndPoint(configInfo.EndPointConfig); } } return vm; }
public void RemoveAzureReservedIPWithDeploymentTest() { try { vmPowershellCmdlets.NewAzureAffinityGroup(affName1, locationName, null, null); string newAzureVM1Name = Utilities.GetUniqueShortName(vmNamePrefix); if (string.IsNullOrEmpty(imageName)) { imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false); } var azureVMConfigInfo1 = new AzureVMConfigInfo(newAzureVM1Name, InstanceSize.ExtraSmall.ToString(), imageName); var azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); var azureDataDiskConfigInfo = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk1", 0); var azureEndPointConfigInfo = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.CustomProbe, ProtocolInfo.tcp, 80, 80, "web", "lbweb", 80, ProtocolInfo.http, @"/", null, null); var persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig, azureDataDiskConfigInfo, azureEndPointConfigInfo); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); //PersistentVM[] VMs = { persistentVM1, persistentVM2 }; PersistentVM[] VMs = { persistentVM1 }; // Create a new deployment vmPowershellCmdlets.NewAzureVMWithAG(svcNameAG, VMs, affName1); // Reserve the ip of the deployment vmPowershellCmdlets.NewAzureReservedIP(rsvIpName1, affName1, svcNameAG, svcNameAG, rsvIPLabel); // Get the deployment and verify var deploymentReturned = vmPowershellCmdlets.GetAzureDeployment(svcNameAG); // Verify the reserved ip var reservedIPReturned = vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1)[0]; Verify.AzureReservedIPInUse(reservedIPReturned, rsvIpName1, rsvIPLabel, affName1, deploymentReturned.VirtualIPs[0].Address, deploymentReturned.DeploymentName, deploymentReturned.ServiceName); // Stop-deallocate the first VM and verify reserved ip Utilities.VerifyFailure(() => vmPowershellCmdlets.RemoveAzureReservedIP(rsvIpName1), BadRequestException); vmPowershellCmdlets.StopAzureVM(newAzureVM1Name, svcNameAG, false, true); // Verify the reserved ip reservedIPReturned = vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1)[0]; Verify.AzureReservedIPInUse(reservedIPReturned, rsvIpName1, rsvIPLabel, affName1, deploymentReturned.VirtualIPs[0].Address, deploymentReturned.DeploymentName, deploymentReturned.ServiceName); // Stop-deallocate the second VM and verify reserved ip Utilities.VerifyFailure(() => vmPowershellCmdlets.RemoveAzureReservedIP(rsvIpName1), BadRequestException); // Remove all VMs and service and verify reserved ip vmPowershellCmdlets.RemoveAzureVM(newAzureVM1Name, svcNameAG, true); // Verify the reserved ip reservedIPReturned = vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1)[0]; Verify.AzureReservedIPNotInUse(reservedIPReturned, rsvIpName1, rsvIPLabel, affName1); // Remove the reserved IP and verify vmPowershellCmdlets.RemoveAzureReservedIP(rsvIpName1); Utilities.VerifyFailure( () => vmPowershellCmdlets.GetAzureReservedIP(rsvIpName1), ResourceNotFoundException); pass = true; } catch (Exception e) { Console.WriteLine(e); throw; } }
public void CaptureImagingExportingImportingVMConfig() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); // Create a unique VM name string newAzureVMName = Utilities.GetUniqueShortName("PSTestVM"); Console.WriteLine("VM Name: {0}", newAzureVMName); // Create a unique Service Name vmPowershellCmdlets.NewAzureService(serviceName, serviceName, locationName); Console.WriteLine("Service Name: {0}", serviceName); if (string.IsNullOrEmpty(imageName)) imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false); // starting the test. var azureVMConfigInfo = new AzureVMConfigInfo(newAzureVMName, InstanceSize.Small.ToString(), imageName); // parameters for New-AzureVMConfig (-Name -InstanceSize -ImageName) var azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); // parameters for Add-AzureProvisioningConfig (-Windows -Password) var persistentVMConfigInfo = new PersistentVMConfigInfo(azureVMConfigInfo, azureProvisioningConfig, null, null); PersistentVM persistentVM = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo); // New-AzureVMConfig & Add-AzureProvisioningConfig PersistentVM[] VMs = { persistentVM }; vmPowershellCmdlets.NewAzureVM(serviceName, VMs); // New-AzureVM Console.WriteLine("The VM is successfully created: {0}", persistentVM.RoleName); PersistentVMRoleContext vmRoleCtxt = vmPowershellCmdlets.GetAzureVM(persistentVM.RoleName, serviceName); Assert.AreEqual(vmRoleCtxt.Name, persistentVM.RoleName, true); vmPowershellCmdlets.StopAzureVM(newAzureVMName, serviceName, true); // Stop-AzureVM for (int i = 0; i < 3; i++) { vmRoleCtxt = vmPowershellCmdlets.GetAzureVM(persistentVM.RoleName, serviceName); if (vmRoleCtxt.InstanceStatus == "StoppedVM") { break; } Console.WriteLine("The status of the VM {0} : {1}", persistentVM.RoleName, vmRoleCtxt.InstanceStatus); Thread.Sleep(120000); } Assert.AreEqual(vmRoleCtxt.InstanceStatus, "StoppedVM", true); // Save-AzureVMImage vmPowershellCmdlets.SaveAzureVMImage(serviceName, newAzureVMName, newAzureVMName); // Verify VM image. var image = vmPowershellCmdlets.GetAzureVMImage(newAzureVMName)[0]; Assert.AreEqual("Windows", image.OS, "OS is not matching!"); Assert.AreEqual(newAzureVMName, image.ImageName, "Names are not matching!"); // Verify that the VM is removed Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(persistentVM.RoleName, serviceName)); // Cleanup the registered image vmPowershellCmdlets.RemoveAzureVMImage(newAzureVMName, true); pass = true; }
public void DevTestProvisioning() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); string newAzureVM1Name = Utilities.GetUniqueShortName(vmNamePrefix); //Find a Windows VM Image imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false); //vmPowershellCmdlets.NewAzureService(serviceName, serviceName, locationName); //Specify a small Windows image, with username and pw AzureVMConfigInfo azureVMConfigInfo1 = new AzureVMConfigInfo(newAzureVM1Name, InstanceSize.ExtraSmall, imageName); AzureProvisioningConfigInfo azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); AzureEndPointConfigInfo azureEndPointConfigInfo = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.NoLB, ProtocolInfo.tcp, 80, 80, "Http"); PersistentVMConfigInfo persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig, null, azureEndPointConfigInfo); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); //Add all the endpoints that are added by the Dev Test feature in Azure Tools azureEndPointConfigInfo = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.NoLB, ProtocolInfo.tcp, 443, 443, "Https"); azureEndPointConfigInfo.Vm = persistentVM1; persistentVM1 = vmPowershellCmdlets.AddAzureEndPoint(azureEndPointConfigInfo); azureEndPointConfigInfo = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.NoLB, ProtocolInfo.tcp, 1433, 1433, "MSSQL"); azureEndPointConfigInfo.Vm = persistentVM1; persistentVM1 = vmPowershellCmdlets.AddAzureEndPoint(azureEndPointConfigInfo); azureEndPointConfigInfo = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.NoLB, ProtocolInfo.tcp, 8172, 8172, "WebDeploy"); azureEndPointConfigInfo.Vm = persistentVM1; persistentVM1 = vmPowershellCmdlets.AddAzureEndPoint(azureEndPointConfigInfo); // Make a storage account named "devtestNNNNN" string storageAcctName = "devtest" + new Random().Next(10000, 99999); vmPowershellCmdlets.NewAzureStorageAccount(storageAcctName, locationName); vmPowershellCmdlets.SetAzureSubscription(defaultAzureSubscription.SubscriptionName, storageAcctName); // When making a new azure VM, you can't specify a location if you want to use the existing service PersistentVM[] VMs = { persistentVM1 }; vmPowershellCmdlets.NewAzureVM(serviceName, VMs, locationName); var svcDeployment = vmPowershellCmdlets.GetAzureDeployment(serviceName); Assert.AreEqual(svcDeployment.ServiceName, serviceName); var vmDeployment = vmPowershellCmdlets.GetAzureVM(newAzureVM1Name, serviceName); Assert.AreEqual(vmDeployment.InstanceName, newAzureVM1Name); // Cleanup vmPowershellCmdlets.RemoveAzureVM(newAzureVM1Name, serviceName); Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(newAzureVM1Name, serviceName)); //TODO: Is failing for me because of active containers //Utilities.RetryActionUntilSuccess(() => vmPowershellCmdlets.RemoveAzureStorageAccount(storageAcctName), "in use", 10, 30); ServiceManagementTest.SetDefaultStorage(); pass = true; }
public void AzureDnsTest2() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); const string dnsName = "OpenDns1"; const string ipAddress = "208.67.222.222"; const string ipAddress2 = "127.0.0.1"; try { vmPowershellCmdlets.NewAzureService(serviceName, locationName); // Create a VM var azureVMConfigInfo = new AzureVMConfigInfo(vmName, InstanceSize.ExtraSmall.ToString(), imageName); var azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo = new PersistentVMConfigInfo(azureVMConfigInfo, azureProvisioningConfig, null, null); PersistentVM vm = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo); vmPowershellCmdlets.NewAzureVM(serviceName, new[] { vm }); // Add a DNS server vmPowershellCmdlets.AddAzureDns(dnsName, ipAddress, serviceName); var dnsServer = vmPowershellCmdlets.GetAzureDeployment(serviceName).DnsSettings.DnsServers[0]; Assert.AreEqual(dnsName, dnsServer.Name); Assert.AreEqual(ipAddress, dnsServer.Address); // Edit the DNS server vmPowershellCmdlets.SetAzureDns(dnsName, ipAddress2, serviceName); dnsServer = vmPowershellCmdlets.GetAzureDeployment(serviceName).DnsSettings.DnsServers[0]; Assert.AreEqual(dnsName, dnsServer.Name); Assert.AreEqual(ipAddress2, dnsServer.Address); // Remove the DNS server vmPowershellCmdlets.RemoveAzureDns(dnsName, serviceName, force:true); Assert.IsNull(vmPowershellCmdlets.GetAzureDeployment(serviceName).DnsSettings); pass = true; } catch (Exception e) { pass = false; Console.WriteLine("Exception occurred: {0}", e.ToString()); throw; } }
public void CaptureImagingExportingImportingVMConfig() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); // Create a unique VM name string newAzureVMName = Utilities.GetUniqueShortName("PSTestVM"); Console.WriteLine("VM Name: {0}", newAzureVMName); // Create a unique Service Name vmPowershellCmdlets.NewAzureService(serviceName, serviceName, locationName); Console.WriteLine("Service Name: {0}", serviceName); if (string.IsNullOrEmpty(imageName)) imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false); // starting the test. AzureVMConfigInfo azureVMConfigInfo = new AzureVMConfigInfo(newAzureVMName, InstanceSize.Small, imageName); // parameters for New-AzureVMConfig (-Name -InstanceSize -ImageName) AzureProvisioningConfigInfo azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); // parameters for Add-AzureProvisioningConfig (-Windows -Password) PersistentVMConfigInfo persistentVMConfigInfo = new PersistentVMConfigInfo(azureVMConfigInfo, azureProvisioningConfig, null, null); PersistentVM persistentVM = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo); // New-AzureVMConfig & Add-AzureProvisioningConfig PersistentVM[] VMs = { persistentVM }; vmPowershellCmdlets.NewAzureVM(serviceName, VMs); // New-AzureVM Console.WriteLine("The VM is successfully created: {0}", persistentVM.RoleName); PersistentVMRoleContext vmRoleCtxt = vmPowershellCmdlets.GetAzureVM(persistentVM.RoleName, serviceName); Assert.AreEqual(vmRoleCtxt.Name, persistentVM.RoleName, true); vmPowershellCmdlets.StopAzureVM(newAzureVMName, serviceName, true); // Stop-AzureVM for (int i = 0; i < 3; i++) { vmRoleCtxt = vmPowershellCmdlets.GetAzureVM(persistentVM.RoleName, serviceName); if (vmRoleCtxt.InstanceStatus == "StoppedVM") break; else { Console.WriteLine("The status of the VM {0} : {1}", persistentVM.RoleName, vmRoleCtxt.InstanceStatus); Thread.Sleep(120000); } } Assert.AreEqual(vmRoleCtxt.InstanceStatus, "StoppedVM", true); //TODO // RDP //TODO: // Run sysprep and shutdown // Check the status of VM //PersistentVMRoleContext vmRoleCtxt2 = vmPowershellCmdlets.GetAzureVM(newAzureVMName, newAzureSvcName); // Get-AzureVM -Name //Assert.AreEqual(newAzureVMName, vmRoleCtxt2.Name, true); // // Save-AzureVMImage //string newImageName = "newImage"; //string newImageLabel = "newImageLabel"; //string postAction = "Delete"; // Save-AzureVMImage -ServiceName -Name -NewImageName -NewImageLabel -PostCaptureAction //vmPowershellCmdlets.SaveAzureVMImage(newAzureSvcName, newAzureVMName, newImageName, newImageLabel, postAction); // Cleanup vmPowershellCmdlets.RemoveAzureVM(persistentVM.RoleName, serviceName); Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(persistentVM.RoleName, serviceName)); }
public void AddEndPointACLsWithNewDeployment() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); string newAzureVM1Name = Utilities.GetUniqueShortName(vmNamePrefix); string newAzureVM2Name = Utilities.GetUniqueShortName(vmNamePrefix); if (string.IsNullOrEmpty(imageName)) imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false); vmPowershellCmdlets.NewAzureService(serviceName, serviceName, locationName); NetworkAclObject aclObj = vmPowershellCmdlets.NewAzureAclConfig(); vmPowershellCmdlets.SetAzureAclConfig(SetACLConfig.AddRule, aclObj, 100, ACLAction.Permit, "172.0.0.0/8", "notes1"); vmPowershellCmdlets.SetAzureAclConfig(SetACLConfig.AddRule, aclObj, 200, ACLAction.Deny, "10.0.0.0/8", "notes2"); AzureVMConfigInfo azureVMConfigInfo1 = new AzureVMConfigInfo(newAzureVM1Name, InstanceSize.ExtraSmall, imageName); AzureVMConfigInfo azureVMConfigInfo2 = new AzureVMConfigInfo(newAzureVM2Name, InstanceSize.ExtraSmall, imageName); AzureProvisioningConfigInfo azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); AddAzureDataDiskConfig azureDataDiskConfigInfo = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk1", 0); AzureEndPointConfigInfo azureEndPointConfigInfo = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.DefaultProbe, ProtocolInfo.tcp, 80, 80, "web", "lbweb", aclObj, true); PersistentVMConfigInfo persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig, azureDataDiskConfigInfo, azureEndPointConfigInfo); PersistentVMConfigInfo persistentVMConfigInfo2 = new PersistentVMConfigInfo(azureVMConfigInfo2, azureProvisioningConfig, azureDataDiskConfigInfo, azureEndPointConfigInfo); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); PersistentVM persistentVM2 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo2); PersistentVM[] VMs = { persistentVM1, persistentVM2 }; vmPowershellCmdlets.NewAzureVM(serviceName, VMs); // Cleanup vmPowershellCmdlets.RemoveAzureVM(newAzureVM1Name, serviceName); vmPowershellCmdlets.RemoveAzureVM(newAzureVM2Name, serviceName); Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(newAzureVM1Name, serviceName)); Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(newAzureVM2Name, serviceName)); pass = true; }
public void StopAzureVMsOnDeallocatedVMTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); try { // Configure VM1 var azureVMConfigInfo1 = new AzureVMConfigInfo(vmName1, InstanceSize.ExtraSmall.ToString(), imageName); var azureProvisioningConfig1 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig1, null, null); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); // Configure VM2 var azureVMConfigInfo2 = new AzureVMConfigInfo(vmName2, InstanceSize.Small.ToString(), imageName); var azureProvisioningConfig2 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo2 = new PersistentVMConfigInfo(azureVMConfigInfo2, azureProvisioningConfig2, null, null); PersistentVM persistentVM2 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo2); PersistentVM[] VMs = { persistentVM1, persistentVM2 }; vmPowershellCmdlets.NewAzureVM(svcName, VMs); Console.WriteLine("The VM is successfully created: {0}", vmName1); Console.WriteLine("The VM is successfully created: {0}", vmName2); WaitForReadyState(svcName, vmName1); WaitForReadyState(svcName, vmName2); // Stop and deallocate the VMs vmPowershellCmdlets.StopAzureVM("*", svcName, false, true); WaitForStoppedState(svcName, vmName1); WaitForStoppedState(svcName, vmName2); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { stoppedDeallocatedState })); try { // Try to stop the VMs with StayProvisioned. Should fail. vmPowershellCmdlets.StopAzureVM("*", svcName, true, true); Assert.Fail(); } catch (Exception e) { if (e is AssertFailedException) { throw; } else { Console.WriteLine(e.ToString()); } } Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { stoppedDeallocatedState })); try { // Try to stop the VMs without any option. Should fail and give a warning message. vmPowershellCmdlets.StopAzureVM("*", svcName); Assert.Fail(); } catch (Exception e) { if (e is AssertFailedException) { throw; } else { Console.WriteLine(e.ToString()); } } Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { stoppedDeallocatedState })); // Try to stop and deallocate the VM again. vmPowershellCmdlets.StopAzureVM("*", svcName, false, true); WaitForStoppedState(svcName, vmName1); WaitForStoppedState(svcName, vmName2); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { stoppedDeallocatedState })); pass = true; } catch (Exception e) { Console.WriteLine(e.ToString()); throw; } finally { if ((cleanupIfPassed && pass) || (cleanupIfFailed && !pass)) { vmPowershellCmdlets.RemoveAzureService(svcName); } } }
public void AzureCertificateSettingTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); // Create a certificate string cerFileName = Convert.ToString(TestContext.DataRow["cerFileName"]); X509Certificate2 certCreated = Utilities.CreateCertificate(password); byte[] certData2 = certCreated.Export(X509ContentType.Cert); File.WriteAllBytes(cerFileName, certData2); // Install the .cer file to local machine. StoreLocation certStoreLocation = StoreLocation.CurrentUser; StoreName certStoreName = StoreName.My; X509Certificate2 installedCert = Utilities.InstallCert(cerFileName, certStoreLocation, certStoreName); PSObject certToUpload = vmPowershellCmdlets.RunPSScript( String.Format("Get-Item cert:\\{0}\\{1}\\{2}", certStoreLocation.ToString(), certStoreName.ToString(), installedCert.Thumbprint))[0]; try { vmPowershellCmdlets.NewAzureService(serviceName, locationName); var certList = new CertificateSettingList(); certList.Add(vmPowershellCmdlets.NewAzureCertificateSetting(certStoreName.ToString(), installedCert.Thumbprint)); var azureVMConfigInfo = new AzureVMConfigInfo(vmName, InstanceSize.Small.ToString(), imageName); var azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, certList, username, password); var persistentVMConfigInfo = new PersistentVMConfigInfo(azureVMConfigInfo, azureProvisioningConfig, null, null); PersistentVM vm = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo); // Negative Test: // Try to deploy a VM with a certificate that does not exist in the hosted service. // This should fail. try { vmPowershellCmdlets.NewAzureVM(serviceName, new[] { vm }); Assert.Fail( "Should have failed, but it succeeded !! New-AzureVM should fail if it contains a thumbprint that does not exist in the hosted service."); } catch (Exception e) { if (e is AssertFailedException) { throw; } Console.WriteLine("This exception is expected: {0}", e); } // Now we add the certificate to the hosted service. vmPowershellCmdlets.AddAzureCertificate(serviceName, certToUpload); vmPowershellCmdlets.NewAzureVM(serviceName, new[] { vm }); PersistentVMRoleContext result = vmPowershellCmdlets.GetAzureVM(vmName, serviceName); Console.WriteLine("{0} is created", result.Name); pass = true; } catch (Exception e) { Console.WriteLine(e); Console.WriteLine(e.InnerException); throw; } finally { Utilities.UninstallCert(installedCert, certStoreLocation, certStoreName); } }
public void StopAzureVMStayProvisionedTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); try { // starting the test. var azureVMConfigInfo1 = new AzureVMConfigInfo(vmName1, InstanceSize.ExtraSmall.ToString(), imageName); var azureProvisioningConfig1 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig1, null, null); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); var azureVMConfigInfo2 = new AzureVMConfigInfo(vmName2, InstanceSize.Small.ToString(), imageName); var azureProvisioningConfig2 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo2 = new PersistentVMConfigInfo(azureVMConfigInfo2, azureProvisioningConfig2, null, null); PersistentVM persistentVM2 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo2); PersistentVM[] VMs = { persistentVM1, persistentVM2 }; vmPowershellCmdlets.NewAzureVM(svcName, VMs); Console.WriteLine("The VM is successfully created: {0}", vmName1); Console.WriteLine("The VM is successfully created: {0}", vmName2); WaitForStartingState(svcName, vmName1); vmPowershellCmdlets.StopAzureVM(vmName1, svcName, true); // Stop-AzureVM -StayProvisioned against VM1 for (int i = 0; i < 10 ; i++) { if (CheckRoleInstanceState(svcName, vmName1, new string[] {stoppedProvisionedState})) { break; } Thread.Sleep(1000); } Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedProvisionedState })); // Stop-AzureVM -StayProvisioned against VM2 vmPowershellCmdlets.RunPSScript(string.Format("{0} -ServiceName {1} -Name {2} | {3} -StayProvisioned", Utilities.GetAzureVMCmdletName, svcName, vmName2, Utilities.StopAzureVMCmdletName)); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string [] {stoppedProvisionedState})); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string [] {stoppedProvisionedState})); pass = true; } catch (Exception e) { Console.WriteLine(e.ToString()); throw; } finally { if ((cleanupIfPassed && pass) || (cleanupIfFailed && !pass)) { vmPowershellCmdlets.RemoveAzureService(svcName); } } }
public void AzureDnsTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); const string dnsName = "OpenDns1"; const string ipAddress = "208.67.222.222"; try { vmPowershellCmdlets.NewAzureService(serviceName, locationName); DnsServer dns = vmPowershellCmdlets.NewAzureDns(dnsName, ipAddress); var azureVMConfigInfo = new AzureVMConfigInfo(vmName, InstanceSize.ExtraSmall.ToString(), imageName); var azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo = new PersistentVMConfigInfo(azureVMConfigInfo, azureProvisioningConfig, null, null); PersistentVM vm = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo); vmPowershellCmdlets.NewAzureVM(serviceName, new []{vm}, null, new[]{dns}, null, null, null, null); Assert.IsTrue(Verify.AzureDns(vmPowershellCmdlets.GetAzureDeployment(serviceName).DnsSettings, dns)); pass = true; } catch (Exception e) { pass = false; Console.WriteLine("Exception occurred: {0}", e.ToString()); throw; } }
public void RestartAzureVMsAfterDeallocateTest() { StartTest(MethodBase.GetCurrentMethod().Name, testStartTime); try { // starting the test. DateTime prevTime = DateTime.Now; // Configure VM1 var azureVMConfigInfo1 = new AzureVMConfigInfo(vmName1, InstanceSize.ExtraSmall.ToString(), imageName); var azureProvisioningConfig1 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo1 = new PersistentVMConfigInfo(azureVMConfigInfo1, azureProvisioningConfig1, null, null); PersistentVM persistentVM1 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo1); // Configure VM2 var azureVMConfigInfo2 = new AzureVMConfigInfo(vmName2, InstanceSize.Small.ToString(), imageName); var azureProvisioningConfig2 = new AzureProvisioningConfigInfo(OS.Windows, username, password); var persistentVMConfigInfo2 = new PersistentVMConfigInfo(azureVMConfigInfo2, azureProvisioningConfig2, null, null); PersistentVM persistentVM2 = vmPowershellCmdlets.GetPersistentVM(persistentVMConfigInfo2); PersistentVM[] VMs = { persistentVM1, persistentVM2 }; Utilities.RecordTimeTaken(ref prevTime); vmPowershellCmdlets.NewAzureVM(svcName, VMs); Utilities.RecordTimeTaken(ref prevTime); Console.WriteLine("The VM is successfully created: {0}", vmName1); Console.WriteLine("The VM is successfully created: {0}", vmName2); WaitForReadyState(svcName, vmName1); WaitForReadyState(svcName, vmName2); Console.WriteLine(vmPowershellCmdlets.GetAzureVM(vmName1, svcName).InstanceStatus); Console.WriteLine(vmPowershellCmdlets.GetAzureVM(vmName2, svcName).InstanceStatus); // Stop VM1 one only using wildcard name string vm1WildcardName = vmName1.Replace(prefixVMName, "*"); Utilities.RecordTimeTaken(ref prevTime); Utilities.RetryActionUntilSuccess(() => vmPowershellCmdlets.StopAzureVM(vm1WildcardName, svcName, false, true), "HTTP Status Code: 409", 10, 60); //StopAzureVMs(vm1WildcardName, svcName, false, true); Utilities.RecordTimeTaken(ref prevTime); WaitForStoppedState(svcName, vmName1); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); // Start VM1 one only using wildcard name Utilities.RecordTimeTaken(ref prevTime); Utilities.RetryActionUntilSuccess(() => vmPowershellCmdlets.StartAzureVM(vm1WildcardName, svcName), "HTTP Status Code: 409", 10, 60); //StartAzureVMs(vm1WildcardName, svcName); Utilities.RecordTimeTaken(ref prevTime); WaitForReadyState(svcName, vmName1); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { readyState })); Utilities.RecordTimeTaken(ref prevTime); vmPowershellCmdlets.StopAzureVM("*", svcName, false, true); Utilities.RecordTimeTaken(ref prevTime); WaitForStoppedState(svcName, vmName1); WaitForStoppedState(svcName, vmName2); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { stoppedDeallocatedState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { stoppedDeallocatedState })); Utilities.RecordTimeTaken(ref prevTime); Utilities.RetryActionUntilSuccess(() => vmPowershellCmdlets.StartAzureVM("*", svcName), "HTTP Status Code: 409", 10, 60); //StartAzureVMs("*", svcName); Utilities.RecordTimeTaken(ref prevTime); WaitForReadyState(svcName, vmName1); WaitForReadyState(svcName, vmName2); Utilities.RecordTimeTaken(ref prevTime); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName1, new string[] { readyState })); Assert.IsTrue(CheckRoleInstanceState(svcName, vmName2, new string[] { readyState })); pass = true; } catch (Exception e) { Console.WriteLine(e.ToString()); throw; } finally { if ((cleanupIfPassed && pass) || (cleanupIfFailed && !pass)) { vmPowershellCmdlets.RemoveAzureService(svcName); } } }