private PersistentVM CreateVMObjectWithDataDiskSubnetAndAvailibilitySet(string vmName, OS os)
{
string disk1 = "Disk1";
int diskSize = 30;
string availabilitySetName = Utilities.GetUniqueShortName("AvailSet");
string img = string.Empty;
bool isWindowsOs = false;
if (os == OS.Windows)
{
img = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false);
isWindowsOs = true;
}
else
{
img = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Linux" }, false);
isWindowsOs = false;
}
PersistentVM vm = Utilities.CreateIaaSVMObject(vmName, InstanceSize.Small, img, isWindowsOs, username, password);
AddAzureDataDiskConfig azureDataDiskConfigInfo1 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, diskSize, disk1, 0, HostCaching.ReadWrite.ToString());
azureDataDiskConfigInfo1.Vm = vm;
vm = vmPowershellCmdlets.SetAzureSubnet(vm, new string[] { subnet });
vm = vmPowershellCmdlets.SetAzureAvailabilitySet(availabilitySetName, vm);
return(vm);
}
public void ModifyingVM()
{
StartTest(MethodBase.GetCurrentMethod().Name, testStartTime);
string newAzureQuickVMName = Utilities.GetUniqueShortName(vmNamePrefix);
if (string.IsNullOrEmpty(imageName))
{
imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows", "testvmimage" }, false);
}
vmPowershellCmdlets.NewAzureQuickVM(OS.Windows, newAzureQuickVMName, serviceName, imageName, username, password, locationName);
AddAzureDataDiskConfig azureDataDiskConfigInfo1 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk1", 0);
AddAzureDataDiskConfig azureDataDiskConfigInfo2 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk2", 1);
AzureEndPointConfigInfo azureEndPointConfigInfo = new AzureEndPointConfigInfo(ProtocolInfo.tcp, 1433, 2000, "sql");
AddAzureDataDiskConfig[] dataDiskConfig = { azureDataDiskConfigInfo1, azureDataDiskConfigInfo2 };
vmPowershellCmdlets.AddVMDataDisksAndEndPoint(newAzureQuickVMName, serviceName, dataDiskConfig, azureEndPointConfigInfo);
SetAzureDataDiskConfig setAzureDataDiskConfig1 = new SetAzureDataDiskConfig(HostCaching.ReadWrite, 0);
SetAzureDataDiskConfig setAzureDataDiskConfig2 = new SetAzureDataDiskConfig(HostCaching.ReadWrite, 0);
SetAzureDataDiskConfig[] diskConfig = { setAzureDataDiskConfig1, setAzureDataDiskConfig2 };
vmPowershellCmdlets.SetVMDataDisks(newAzureQuickVMName, serviceName, diskConfig);
vmPowershellCmdlets.GetAzureDataDisk(newAzureQuickVMName, serviceName);
// Cleanup
vmPowershellCmdlets.RemoveAzureVM(newAzureQuickVMName, serviceName);
Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(newAzureQuickVMName, serviceName));
pass = true;
}
public PersistentVMConfigInfo(AzureVMConfigInfo vmConfig, AzureProvisioningConfigInfo provConfig, AddAzureDataDiskConfig diskConfig, AzureEndPointConfigInfo endPointConfig)
{
this.VmConfig = vmConfig;
this.ProvConfig = provConfig;
this.DiskConfig = diskConfig;
this.EndPointConfig = endPointConfig;
}
public void UpdateAndReboot()
{
StartTest(MethodBase.GetCurrentMethod().Name, testStartTime);
string newAzureQuickVMName = Utilities.GetUniqueShortName("PSTestVM");
if (string.IsNullOrEmpty(imageName))
{
imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows", "testvmimage" }, false);
}
vmPowershellCmdlets.NewAzureQuickVM(OS.Windows, newAzureQuickVMName, serviceName, imageName, username, password, locationName);
AddAzureDataDiskConfig azureDataDiskConfigInfo1 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk1", 0);
AddAzureDataDiskConfig azureDataDiskConfigInfo2 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk2", 1);
AddAzureDataDiskConfig[] dataDiskConfig = { azureDataDiskConfigInfo1, azureDataDiskConfigInfo2 };
vmPowershellCmdlets.AddVMDataDisks(newAzureQuickVMName, serviceName, dataDiskConfig);
SetAzureDataDiskConfig setAzureDataDiskConfig1 = new SetAzureDataDiskConfig(HostCaching.ReadOnly, 0);
SetAzureDataDiskConfig setAzureDataDiskConfig2 = new SetAzureDataDiskConfig(HostCaching.ReadOnly, 0);
SetAzureDataDiskConfig[] diskConfig = { setAzureDataDiskConfig1, setAzureDataDiskConfig2 };
vmPowershellCmdlets.SetVMDataDisks(newAzureQuickVMName, serviceName, diskConfig);
SetAzureVMSizeConfig vmSizeConfig = new SetAzureVMSizeConfig(InstanceSize.Medium);
vmPowershellCmdlets.SetVMSize(newAzureQuickVMName, serviceName, vmSizeConfig);
// Cleanup
vmPowershellCmdlets.RemoveAzureVM(newAzureQuickVMName, serviceName);
Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(newAzureQuickVMName, serviceName));
pass = true;
}
public PersistentVMConfigInfo(AzureVMConfigInfo vmConfig, AzureProvisioningConfigInfo provConfig, AddAzureDataDiskConfig diskConfig, AzureEndPointConfigInfo endPointConfig)
{
this.VmConfig = vmConfig;
this.ProvConfig = provConfig;
this.DiskConfig = diskConfig;
this.EndPointConfig = endPointConfig;
}
public PersistentVM CreateIaaSVMObjectWithDisk(string vmName, InstanceSize size, string imageName, bool isWindows, string username, string password)
{
PersistentVM vm = Utilities.CreateIaaSVMObject(vmName, InstanceSize.Small, imageName, isWindows, username, password);
AddAzureDataDiskConfig azureDataDiskConfigInfo1 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, diskSize1, diskLabel1, lunSlot1, cahcing.ToString());
azureDataDiskConfigInfo1.Vm = vm;
return(vmPowershellCmdlets.AddAzureDataDisk(azureDataDiskConfigInfo1));
}
public AddAzureDataDiskCmdletInfo(AddAzureDataDiskConfig diskConfig)
{
this.cmdletName = Utilities.AddAzureDataDiskCmdletName;
this.cmdletParams.Add(new CmdletParam("CreateNew", null));
this.cmdletParams.Add(new CmdletParam("DiskSizeInGB", diskConfig.DiskSizeGB));
this.cmdletParams.Add(new CmdletParam("DiskLabel", diskConfig.DiskLabel));
this.cmdletParams.Add(new CmdletParam("LUN", diskConfig.LunSlot));
this.cmdletParams.Add(new CmdletParam("VM", diskConfig.Vm));
}
public AddAzureDataDiskCmdletInfo(AddAzureDataDiskConfig diskConfig)
{
this.cmdletName = Utilities.AddAzureDataDiskCmdletName;
this.cmdletParams.Add(new CmdletParam("CreateNew", null));
this.cmdletParams.Add(new CmdletParam("DiskSizeInGB", diskConfig.DiskSizeGB));
this.cmdletParams.Add(new CmdletParam("DiskLabel", diskConfig.DiskLabel));
this.cmdletParams.Add(new CmdletParam("LUN", diskConfig.LunSlot));
this.cmdletParams.Add(new CmdletParam("VM", diskConfig.Vm));
}
public PersistentVM AddAzureDataDisk(AddAzureDataDiskConfig diskConfig)
{
AddAzureDataDiskCmdletInfo addAzureDataDiskCmdletInfo = new AddAzureDataDiskCmdletInfo(diskConfig);
WindowsAzurePowershellCmdlet azurePowershellCmdlet = new WindowsAzurePowershellCmdlet(addAzureDataDiskCmdletInfo);
Collection<PSObject> result = azurePowershellCmdlet.Run();
if (result.Count == 1)
{
return (PersistentVM)result[0].BaseObject;
}
return null;
}
public AddAzureDataDiskCmdletInfo(AddAzureDataDiskConfig diskConfig)
{
this.cmdletName = Utilities.AddAzureDataDiskCmdletName;
this.cmdletParams.Add(new CmdletParam("CreateNew", null));
this.cmdletParams.Add(new CmdletParam("DiskSizeInGB", diskConfig.DiskSizeGB));
this.cmdletParams.Add(new CmdletParam("DiskLabel", diskConfig.DiskLabel));
this.cmdletParams.Add(new CmdletParam("LUN", diskConfig.LunSlot));
this.cmdletParams.Add(new CmdletParam("VM", diskConfig.Vm));
if (!string.IsNullOrEmpty(diskConfig.HostCaching))
this.cmdletParams.Add(new CmdletParam("HostCaching",diskConfig.HostCaching));
}
public AddAzureDataDiskCmdletInfo(AddAzureDataDiskConfig diskConfig)
{
this.cmdletName = Utilities.AddAzureDataDiskCmdletName;
this.cmdletParams.Add(new CmdletParam("CreateNew", null));
this.cmdletParams.Add(new CmdletParam("DiskSizeInGB", diskConfig.DiskSizeGB));
this.cmdletParams.Add(new CmdletParam("DiskLabel", diskConfig.DiskLabel));
this.cmdletParams.Add(new CmdletParam("LUN", diskConfig.LunSlot));
this.cmdletParams.Add(new CmdletParam("VM", diskConfig.Vm));
if (!string.IsNullOrEmpty(diskConfig.HostCaching))
{
this.cmdletParams.Add(new CmdletParam("HostCaching", diskConfig.HostCaching));
}
}
private static PersistentVM CreateVMWithEndpointDataDiskAndPublicIP(string vmName, string endpointName, string disklabel1, string publicIpName, string serviceName, int localPort, int publicport)
{
var vm1 = Utilities.CreateIaaSVMObject(vmName, InstanceSize.Small, imageName, true, username, password);
var endpointConfiginput = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.NoLB, TCP_PROTOCAL, localPort, publicport, endpointName, serviceName: serviceName);
endpointConfiginput.Vm = vm1;
vm1 = vmPowershellCmdlets.AddAzureEndPoint(endpointConfiginput);
var dataDiskConfig1 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 128, disklabel1, 0);
dataDiskConfig1.Vm = vm1;
vm1 = vmPowershellCmdlets.AddAzureDataDisk(dataDiskConfig1);
vm1 = (PersistentVM)vmPowershellCmdlets.SetAzurePublicIp(publicIpName, vm1);
return(vm1);
}
public void AzureDataDiskTest()
{
StartTest(MethodBase.GetCurrentMethod().Name, testStartTime);
string diskLabel1 = "disk1";
int diskSize1 = 30;
int lunSlot1 = 0;
string diskLabel2 = "disk2";
int diskSize2 = 50;
int lunSlot2 = 2;
try
{
AddAzureDataDiskConfig dataDiskInfo1 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, diskSize1, diskLabel1, lunSlot1);
AddAzureDataDiskConfig dataDiskInfo2 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, diskSize2, diskLabel2, lunSlot2);
vmPowershellCmdlets.AddDataDisk(defaultVm, defaultService, new [] {dataDiskInfo1, dataDiskInfo2}); // Add-AzureDataDisk with Get-AzureVM and Update-AzureVm
Assert.IsTrue(CheckDataDisk(defaultVm, defaultService, dataDiskInfo1, HostCaching.None), "Data disk is not properly added");
Console.WriteLine("Data disk added correctly.");
Assert.IsTrue(CheckDataDisk(defaultVm, defaultService, dataDiskInfo2, HostCaching.None), "Data disk is not properly added");
Console.WriteLine("Data disk added correctly.");
vmPowershellCmdlets.SetDataDisk(defaultVm, defaultService, HostCaching.ReadOnly, lunSlot1);
Assert.IsTrue(CheckDataDisk(defaultVm, defaultService, dataDiskInfo1, HostCaching.ReadOnly), "Data disk is not properly changed");
Console.WriteLine("Data disk is changed correctly.");
pass = true;
}
catch (Exception e)
{
pass = false;
Assert.Fail("Exception occurred: {0}", e.ToString());
}
finally
{
// Remove DataDisks created
foreach (DataVirtualHardDisk disk in vmPowershellCmdlets.GetAzureDataDisk(defaultVm, defaultService))
{
vmPowershellCmdlets.RemoveDataDisk(defaultVm, defaultService, new[] { disk.Lun }); // Remove-AzureDataDisk
RemoveDisk(disk.DiskName, 10);
}
Assert.AreEqual(0, vmPowershellCmdlets.GetAzureDataDisk(defaultVm, defaultService).Count, "DataDisk is not removed.");
}
}
private bool CheckDataDisk(string vmName, string serviceName, AddAzureDataDiskConfig dataDiskInfo, HostCaching hc)
{
bool found = false;
foreach (DataVirtualHardDisk disk in vmPowershellCmdlets.GetAzureDataDisk(vmName, serviceName))
{
Console.WriteLine("DataDisk - Name:{0}, Label:{1}, Size:{2}, LUN:{3}, HostCaching: {4}", disk.DiskName, disk.DiskLabel, disk.LogicalDiskSizeInGB, disk.Lun, disk.HostCaching);
if (disk.DiskLabel == dataDiskInfo.DiskLabel && disk.LogicalDiskSizeInGB == dataDiskInfo.DiskSizeGB && disk.Lun == dataDiskInfo.LunSlot)
{
if (disk.HostCaching == hc.ToString())
{
found = true;
Console.WriteLine("DataDisk found: {0}", disk.DiskLabel);
}
}
}
return found;
}
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", "testvmimage" }, 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 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", "testvmimage" }, 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(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 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;
}
}
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;
}
}
internal void AddVMDataDisks(string vmName, string serviceName, AddAzureDataDiskConfig[] diskConfig)
{
PersistentVMRoleContext vmRolectx = GetAzureVM(vmName, serviceName);
foreach (AddAzureDataDiskConfig discCfg in diskConfig)
{
discCfg.Vm = vmRolectx.VM;
vmRolectx.VM = AddAzureDataDisk(discCfg);
}
UpdateAzureVM(vmName, serviceName, vmRolectx.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;
}
}
internal void AddVMDataDisksAndEndPoint(string vmName, string serviceName, AddAzureDataDiskConfig[] dataDiskConfig, AzureEndPointConfigInfo endPointConfig)
{
AddVMDataDisks(vmName, serviceName, dataDiskConfig);
AddEndPoint(vmName, serviceName, new [] {endPointConfig});
}
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;
}
}
public void AddDataDisk(string vmName, string serviceName, AddAzureDataDiskConfig [] diskConfigs)
{
PersistentVM vm = GetAzureVM(vmName, serviceName).VM;
foreach (AddAzureDataDiskConfig config in diskConfigs)
{
config.Vm = vm;
vm = AddAzureDataDisk(config);
}
UpdateAzureVM(vmName, serviceName, vm);
}
public void AzureIaaSBVT()
{
StartTest(MethodBase.GetCurrentMethod().Name, testStartTime);
DateTime prevTime = DateTime.Now;
string diskLabel1 = "disk1";
int diskSize1 = 30;
int lunSlot1 = 0;
string diskLabel2 = "disk2";
int diskSize2 = 50;
int lunSlot2 = 2;
string ep1Name = "tcp1";
int ep1LocalPort = 60010;
int ep1PublicPort = 60011;
string ep1LBSetName = "lbset1";
int ep1ProbePort = 60012;
string ep1ProbePath = string.Empty;
int? ep1ProbeInterval = 7;
int? ep1ProbeTimeout = null;
NetworkAclObject ep1AclObj = vmPowershellCmdlets.NewAzureAclConfig();
bool ep1DirectServerReturn = false;
string ep2Name = "tcp2";
int ep2LocalPort = 60020;
int ep2PublicPort = 60021;
int ep2LocalPortChanged = 60030;
int ep2PublicPortChanged = 60031;
string ep2LBSetName = "lbset2";
int ep2ProbePort = 60022;
string ep2ProbePath = @"/";
int? ep2ProbeInterval = null;
int? ep2ProbeTimeout = 32;
NetworkAclObject ep2AclObj = vmPowershellCmdlets.NewAzureAclConfig();
bool ep2DirectServerReturn = false;
string cerFileName = "testcert.cer";
string thumbprintAlgorithm = "sha1";
try
{
// Create a certificate
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];
string certData = Convert.ToBase64String(((X509Certificate2)certToUpload.BaseObject).RawData);
string newAzureVMName = Utilities.GetUniqueShortName(vmNamePrefix);
if (string.IsNullOrEmpty(imageName))
{
imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false);
}
RecordTimeTaken(ref prevTime);
//
// New-AzureService and verify with Get-AzureService
//
vmPowershellCmdlets.NewAzureService(serviceName, serviceName, locationName);
Assert.IsTrue(Verify.AzureService(serviceName, serviceName, locationName));
RecordTimeTaken(ref prevTime);
//
// Add-AzureCertificate and verify with Get-AzureCertificate
//
vmPowershellCmdlets.AddAzureCertificate(serviceName, certToUpload);
Assert.IsTrue(Verify.AzureCertificate(serviceName, certCreated.Thumbprint, thumbprintAlgorithm, certData));
RecordTimeTaken(ref prevTime);
//
// Remove-AzureCertificate
//
vmPowershellCmdlets.RemoveAzureCertificate(serviceName, certCreated.Thumbprint, thumbprintAlgorithm);
Assert.IsTrue(Utilities.CheckRemove(vmPowershellCmdlets.GetAzureCertificate, serviceName, certCreated.Thumbprint, thumbprintAlgorithm));
RecordTimeTaken(ref prevTime);
//
// New-AzureVMConfig
//
var azureVMConfigInfo = new AzureVMConfigInfo(newAzureVMName, InstanceSize.Small.ToString(), imageName);
PersistentVM vm = vmPowershellCmdlets.NewAzureVMConfig(azureVMConfigInfo);
RecordTimeTaken(ref prevTime);
//
// Add-AzureCertificate
//
vmPowershellCmdlets.AddAzureCertificate(serviceName, certToUpload);
//
// New-AzureCertificateSetting
//
CertificateSettingList certList = new CertificateSettingList();
certList.Add(vmPowershellCmdlets.NewAzureCertificateSetting(certStoreName.ToString(), installedCert.Thumbprint));
RecordTimeTaken(ref prevTime);
//
// Add-AzureProvisioningConfig
//
AzureProvisioningConfigInfo azureProvisioningConfig = new AzureProvisioningConfigInfo(OS.Windows, certList, username, password);
azureProvisioningConfig.Vm = vm;
vm = vmPowershellCmdlets.AddAzureProvisioningConfig(azureProvisioningConfig);
RecordTimeTaken(ref prevTime);
//
// Add-AzureDataDisk (two disks)
//
AddAzureDataDiskConfig azureDataDiskConfigInfo1 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, diskSize1, diskLabel1, lunSlot1);
azureDataDiskConfigInfo1.Vm = vm;
vm = vmPowershellCmdlets.AddAzureDataDisk(azureDataDiskConfigInfo1);
AddAzureDataDiskConfig azureDataDiskConfigInfo2 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, diskSize2, diskLabel2, lunSlot2);
azureDataDiskConfigInfo2.Vm = vm;
vm = vmPowershellCmdlets.AddAzureDataDisk(azureDataDiskConfigInfo2);
RecordTimeTaken(ref prevTime);
//
// Add-AzureEndpoint (two endpoints)
//
AzureEndPointConfigInfo azureEndPointConfigInfo1 = new AzureEndPointConfigInfo(
AzureEndPointConfigInfo.ParameterSet.CustomProbe,
ProtocolInfo.tcp,
ep1LocalPort,
ep1PublicPort,
ep1Name,
ep1LBSetName,
ep1ProbePort,
ProtocolInfo.tcp,
ep1ProbePath,
ep1ProbeInterval,
ep1ProbeTimeout,
ep1AclObj,
ep1DirectServerReturn,
null,
null,
LoadBalancerDistribution.SourceIP);
azureEndPointConfigInfo1.Vm = vm;
vm = vmPowershellCmdlets.AddAzureEndPoint(azureEndPointConfigInfo1);
AzureEndPointConfigInfo azureEndPointConfigInfo2 = new AzureEndPointConfigInfo(
AzureEndPointConfigInfo.ParameterSet.CustomProbe,
ProtocolInfo.tcp,
ep2LocalPort,
ep2PublicPort,
ep2Name,
ep2LBSetName,
ep2ProbePort,
ProtocolInfo.http,
ep2ProbePath,
ep2ProbeInterval,
ep2ProbeTimeout,
ep2AclObj,
ep2DirectServerReturn);
azureEndPointConfigInfo2.Vm = vm;
vm = vmPowershellCmdlets.AddAzureEndPoint(azureEndPointConfigInfo2);
RecordTimeTaken(ref prevTime);
//
// Set-AzureAvailabilitySet
//
string testAVSetName = "testAVSet1";
vm = vmPowershellCmdlets.SetAzureAvailabilitySet(testAVSetName, vm);
RecordTimeTaken(ref prevTime);
//
// New-AzureDns
//
string dnsName = "OpenDns1";
string ipAddress = "208.67.222.222";
DnsServer dns = vmPowershellCmdlets.NewAzureDns(dnsName, ipAddress);
RecordTimeTaken(ref prevTime);
//
// New-AzureVM
//
vmPowershellCmdlets.NewAzureVM(serviceName, new[] { vm }, null, new[] { dns }, null, null, null, null);
RecordTimeTaken(ref prevTime);
//
// Get-AzureVM without any parameter (List VMs)
//
var vmlist = vmPowershellCmdlets.GetAzureVM();
Console.WriteLine("The number of VMs: {0}", vmlist.Count);
Assert.AreNotSame(0, vmlist.Count, "No VM exists!!!");
PersistentVMRoleListContext returnedVMlist =
vmlist.First(item => item.ServiceName.Equals(serviceName) && item.Name.Equals(newAzureVMName));
Assert.IsNotNull(returnedVMlist, "Created VM does not exist!!!");
Utilities.PrintContext((PersistentVMRoleContext)returnedVMlist);
//
// Get-AzureVM
//
PersistentVMRoleContext returnedVM = vmPowershellCmdlets.GetAzureVM(newAzureVMName, serviceName);
vm = returnedVM.VM;
RecordTimeTaken(ref prevTime);
//
// Verify AzureDataDisk
//
Assert.IsTrue(Verify.AzureDataDisk(vm, diskLabel1, diskSize1, lunSlot1, HostCaching.None), "Data disk is not properly added");
Assert.IsTrue(Verify.AzureDataDisk(vm, diskLabel2, diskSize2, lunSlot2, HostCaching.None), "Data disk is not properly added");
Console.WriteLine("Data disk added correctly.");
RecordTimeTaken(ref prevTime);
//
// Verify AzureEndpoint
//
Assert.IsTrue(Verify.AzureEndpoint(vm, new[] { azureEndPointConfigInfo1, azureEndPointConfigInfo2 }));
//
// Verify RDP & PowerShell Endpoints
//
var endpoints = vmPowershellCmdlets.GetAzureEndPoint(vm);
Assert.IsTrue(endpoints.Count(e => e.Name == "PowerShell" && e.LocalPort == 5986 && e.Protocol == "tcp") == 1);
Assert.IsTrue(endpoints.Count(e => e.Name == "RemoteDesktop" && e.LocalPort == 3389 && e.Protocol == "tcp") == 1);
//
// Verify AzureDns
//
Assert.IsTrue(Verify.AzureDns(vmPowershellCmdlets.GetAzureDeployment(serviceName).DnsSettings, dns));
//
// Verify AzureAvailibilitySet
//
Assert.IsTrue(Verify.AzureAvailabilitySet(vm, testAVSetName));
//
// Verify AzureOsDisk
//
Assert.IsTrue(Verify.AzureOsDisk(vm, "Windows", HostCaching.ReadWrite));
//
// Set-AzureDataDisk
//
SetAzureDataDiskConfig setAzureDataDiskConfigInfo = new SetAzureDataDiskConfig(HostCaching.ReadOnly, lunSlot1);
setAzureDataDiskConfigInfo.Vm = vm;
vm = vmPowershellCmdlets.SetAzureDataDisk(setAzureDataDiskConfigInfo);
RecordTimeTaken(ref prevTime);
//
// Remove-AzureDataDisk
//
RemoveAzureDataDiskConfig removeAzureDataDiskConfig = new RemoveAzureDataDiskConfig(lunSlot2, vm);
vm = vmPowershellCmdlets.RemoveAzureDataDisk(removeAzureDataDiskConfig);
RecordTimeTaken(ref prevTime);
//
// Set-AzureEndpoint
//
azureEndPointConfigInfo2 = new AzureEndPointConfigInfo(
AzureEndPointConfigInfo.ParameterSet.CustomProbe,
ProtocolInfo.tcp,
ep2LocalPortChanged,
ep2PublicPortChanged,
ep2Name,
ep2LBSetName,
ep2ProbePort,
ProtocolInfo.http,
ep2ProbePath,
ep2ProbeInterval,
ep2ProbeTimeout,
ep2AclObj,
ep2DirectServerReturn);
azureEndPointConfigInfo2.Vm = vm;
vm = vmPowershellCmdlets.SetAzureEndPoint(azureEndPointConfigInfo2);
RecordTimeTaken(ref prevTime);
//
// Remove-AzureEndpoint
//
vm = vmPowershellCmdlets.RemoveAzureEndPoint(azureEndPointConfigInfo1.EndpointName, vm);
RecordTimeTaken(ref prevTime);
//
// Set-AzureVMSize
//
var vmSizeConfig = new SetAzureVMSizeConfig(InstanceSize.Medium.ToString());
vmSizeConfig.Vm = vm;
vm = vmPowershellCmdlets.SetAzureVMSize(vmSizeConfig);
RecordTimeTaken(ref prevTime);
//
// Set-AzureOSDisk
//
vm = vmPowershellCmdlets.SetAzureOSDisk(HostCaching.ReadOnly, vm);
//
// Update-AzureVM
//
vmPowershellCmdlets.UpdateAzureVM(newAzureVMName, serviceName, vm);
RecordTimeTaken(ref prevTime);
//
// Get-AzureVM and Verify the VM
//
vm = vmPowershellCmdlets.GetAzureVM(newAzureVMName, serviceName).VM;
// Verify setting data disk
Assert.IsTrue(Verify.AzureDataDisk(vm, diskLabel1, diskSize1, lunSlot1, HostCaching.ReadOnly), "Data disk is not properly added");
// Verify removing a data disk
Assert.AreEqual(1, vmPowershellCmdlets.GetAzureDataDisk(vm).Count, "DataDisk is not removed.");
// Verify setting an endpoint
Assert.IsTrue(Verify.AzureEndpoint(vm, new[] { azureEndPointConfigInfo2 }));
// Verify removing an endpoint
Assert.IsFalse(Verify.AzureEndpoint(vm, new[] { azureEndPointConfigInfo1 }));
// Verify os disk
Assert.IsTrue(Verify.AzureOsDisk(vm, "Windows", HostCaching.ReadOnly));
//
// Remove-AzureVM
//
vmPowershellCmdlets.RemoveAzureVM(newAzureVMName, serviceName);
RecordTimeTaken(ref prevTime);
Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(newAzureVMName, serviceName));
pass = true;
}
catch (Exception e)
{
Console.WriteLine(e.ToString());
throw;
}
}
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 UpdateAndReboot()
{
StartTest(MethodBase.GetCurrentMethod().Name, testStartTime);
string newAzureQuickVMName = Utilities.GetUniqueShortName("PSTestVM");
if (string.IsNullOrEmpty(imageName))
imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false);
vmPowershellCmdlets.NewAzureQuickVM(OS.Windows, newAzureQuickVMName, serviceName, imageName, username, password, locationName);
AddAzureDataDiskConfig azureDataDiskConfigInfo1 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk1", 0);
AddAzureDataDiskConfig azureDataDiskConfigInfo2 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk2", 1);
AddAzureDataDiskConfig[] dataDiskConfig = { azureDataDiskConfigInfo1, azureDataDiskConfigInfo2 };
vmPowershellCmdlets.AddVMDataDisks(newAzureQuickVMName, serviceName, dataDiskConfig);
SetAzureDataDiskConfig setAzureDataDiskConfig1 = new SetAzureDataDiskConfig(HostCaching.ReadOnly, 0);
SetAzureDataDiskConfig setAzureDataDiskConfig2 = new SetAzureDataDiskConfig(HostCaching.ReadOnly, 0);
SetAzureDataDiskConfig[] diskConfig = { setAzureDataDiskConfig1, setAzureDataDiskConfig2 };
vmPowershellCmdlets.SetVMDataDisks(newAzureQuickVMName, serviceName, diskConfig);
SetAzureVMSizeConfig vmSizeConfig = new SetAzureVMSizeConfig(InstanceSize.Medium);
vmPowershellCmdlets.SetVMSize(newAzureQuickVMName, serviceName, vmSizeConfig);
// Cleanup
vmPowershellCmdlets.RemoveAzureVM(newAzureQuickVMName, serviceName);
Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(newAzureQuickVMName, serviceName));
pass = true;
}
public PersistentVM AddAzureDataDisk(AddAzureDataDiskConfig diskConfig)
{
return(RunPSCmdletAndReturnFirst <PersistentVM>(new AddAzureDataDiskCmdletInfo(diskConfig)));
}
public void ModifyingVM()
{
StartTest(MethodBase.GetCurrentMethod().Name, testStartTime);
string newAzureQuickVMName = Utilities.GetUniqueShortName(vmNamePrefix);
if (string.IsNullOrEmpty(imageName))
imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false);
vmPowershellCmdlets.NewAzureQuickVM(OS.Windows, newAzureQuickVMName, serviceName, imageName, username, password, locationName);
AddAzureDataDiskConfig azureDataDiskConfigInfo1 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk1", 0);
AddAzureDataDiskConfig azureDataDiskConfigInfo2 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, 50, "datadisk2", 1);
AzureEndPointConfigInfo azureEndPointConfigInfo = new AzureEndPointConfigInfo(AzureEndPointConfigInfo.ParameterSet.NoLB, ProtocolInfo.tcp, 1433, 2000, "sql");
AddAzureDataDiskConfig[] dataDiskConfig = { azureDataDiskConfigInfo1, azureDataDiskConfigInfo2 };
vmPowershellCmdlets.AddVMDataDisksAndEndPoint(newAzureQuickVMName, serviceName, dataDiskConfig, azureEndPointConfigInfo);
SetAzureDataDiskConfig setAzureDataDiskConfig1 = new SetAzureDataDiskConfig(HostCaching.ReadWrite, 0);
SetAzureDataDiskConfig setAzureDataDiskConfig2 = new SetAzureDataDiskConfig(HostCaching.ReadWrite, 0);
SetAzureDataDiskConfig[] diskConfig = { setAzureDataDiskConfig1, setAzureDataDiskConfig2 };
vmPowershellCmdlets.SetVMDataDisks(newAzureQuickVMName, serviceName, diskConfig);
vmPowershellCmdlets.GetAzureDataDisk(newAzureQuickVMName, serviceName);
// Cleanup
vmPowershellCmdlets.RemoveAzureVM(newAzureQuickVMName, serviceName);
Assert.AreEqual(null, vmPowershellCmdlets.GetAzureVM(newAzureQuickVMName, serviceName));
pass = true;
}
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 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 NewAzureVMWithResizeDiskTest()
{
imageName = vmPowershellCmdlets.GetAzureVMImageName(new[] { "Windows" }, false, 50);
string newVMImageName = Utilities.GetUniqueShortName("vmimage");
const int newDiskSize = 100;
try
{
vmPowershellCmdlets.NewAzureQuickVM(OS.Windows, _vmName, _serviceName, imageName, username, password, locationName);
Console.WriteLine("Service Name: {0} is created. VM: {1} is created.", _serviceName, _vmName);
string diskLabel1 = "disk1";
int diskSize1 = 30;
int lunSlot1 = 0;
string diskLabel2 = "disk2";
int diskSize2 = 50;
int lunSlot2 = 2;
AddAzureDataDiskConfig dataDiskInfo1 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, diskSize1, diskLabel1, lunSlot1);
AddAzureDataDiskConfig dataDiskInfo2 = new AddAzureDataDiskConfig(DiskCreateOption.CreateNew, diskSize2, diskLabel2, lunSlot2);
vmPowershellCmdlets.AddDataDisk(_vmName, _serviceName, new[] { dataDiskInfo1, dataDiskInfo2 });
vmPowershellCmdlets.SaveAzureVMImage(_serviceName, _vmName, newVMImageName, "Specialized");
var newImage = vmPowershellCmdlets.GetAzureVMImageReturningVMImages(newVMImageName).FirstOrDefault();
foreach (var disk in newImage.DataDiskConfigurations)
{
Utilities.PrintContextAndItsBase(disk);
}
string disk1 = newImage.DataDiskConfigurations[0].Name;
string disk2 = newImage.DataDiskConfigurations[1].Name;
vmPowershellCmdlets.RemoveAzureService(_serviceName);
// Add-AzureProvisioningConfig with NoSSHEndpoint
var vm = vmPowershellCmdlets.NewAzureVMConfig(new AzureVMConfigInfo(_vmName, InstanceSize.Small.ToString(), newVMImageName));
vm = vmPowershellCmdlets.SetAzureDataDisk(new SetAzureDataDiskResizeConfig(disk1, newDiskSize, vm));
vm = vmPowershellCmdlets.SetAzureDataDisk(new SetAzureDataDiskResizeConfig(disk2, newDiskSize, vm));
vm = vmPowershellCmdlets.SetAzureOSDisk(null, vm, newDiskSize);
// New-AzureVM
vmPowershellCmdlets.NewAzureVM(_serviceName, new[] { vm }, locationName);
Console.WriteLine("New Azure service with name:{0} created successfully.", _serviceName);
// Validate disk sizes
var returnedVM = vmPowershellCmdlets.GetAzureVM(_vmName, _serviceName);
foreach (var disk in returnedVM.VM.DataVirtualHardDisks)
{
Utilities.PrintContextAndItsBase(disk);
}
Assert.AreEqual(newDiskSize, returnedVM.VM.DataVirtualHardDisks[0].LogicalDiskSizeInGB);
Assert.AreEqual(newDiskSize, returnedVM.VM.DataVirtualHardDisks[1].LogicalDiskSizeInGB);
pass = true;
}
catch (Exception ex)
{
Console.WriteLine(ex.Message);
if (ex.InnerException != null)
{
Console.WriteLine(ex.InnerException);
}
throw;
}
finally
{
vmPowershellCmdlets.RemoveAzureService(_serviceName);
vmPowershellCmdlets.RemoveAzureVMImage(newVMImageName, true);
}
}
