internal void Bind(TreeNode availabilitySetNode) { _armAvailabilitySetNode = availabilitySetNode; Azure.MigrationTarget.AvailabilitySet armAvailabilitySet = (Azure.MigrationTarget.AvailabilitySet)_armAvailabilitySetNode.Tag; txtTargetName.Text = armAvailabilitySet.TargetName; }
private void txtTargetName_TextChanged(object sender, EventArgs e) { TextBox txtSender = (TextBox)sender; Azure.MigrationTarget.AvailabilitySet targetAvailabilitySet = (Azure.MigrationTarget.AvailabilitySet)_armAvailabilitySetNode.Tag; targetAvailabilitySet.TargetName = txtSender.Text; _armAvailabilitySetNode.Text = targetAvailabilitySet.ToString(); PropertyChanged(); }
internal void Bind(TargetTreeView targetTreeView, TreeNode availabilitySetNode) { _TargetTreeView = targetTreeView; _armAvailabilitySetNode = availabilitySetNode; Azure.MigrationTarget.AvailabilitySet targetAvailabilitySet = (Azure.MigrationTarget.AvailabilitySet)_armAvailabilitySetNode.Tag; txtTargetName.Text = targetAvailabilitySet.TargetName; upDownFaultDomains.Value = targetAvailabilitySet.PlatformFaultDomainCount; upDownUpdateDomains.Value = targetAvailabilitySet.PlatformUpdateDomainCount; foreach (Azure.MigrationTarget.VirtualMachine virtualMachine in targetAvailabilitySet.TargetVirtualMachines) { AddResourceSummary(new ResourceSummary(virtualMachine, _TargetTreeView)); } }
private TreeNode GetTargetAvailabilitySetNode(TreeNode subscriptionNode, Azure.MigrationTarget.AvailabilitySet targetAvailabilitySet) { foreach (TreeNode treeNode in subscriptionNode.Nodes) { if (treeNode.Tag != null) { if (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.AvailabilitySet) && treeNode.Text == targetAvailabilitySet.ToString()) { return(treeNode); } } } TreeNode tnAvailabilitySet = new TreeNode(targetAvailabilitySet.ToString()); tnAvailabilitySet.Text = targetAvailabilitySet.ToString(); tnAvailabilitySet.Tag = targetAvailabilitySet; tnAvailabilitySet.ImageKey = "AvailabilitySet"; tnAvailabilitySet.SelectedImageKey = "AvailabilitySet"; subscriptionNode.Nodes.Add(tnAvailabilitySet); tnAvailabilitySet.Expand(); return(tnAvailabilitySet); }
private void upDownUpdateDomains_ValueChanged(object sender, EventArgs e) { Azure.MigrationTarget.AvailabilitySet targetAvailabilitySet = (Azure.MigrationTarget.AvailabilitySet)_armAvailabilitySetNode.Tag; targetAvailabilitySet.PlatformUpdateDomainCount = Convert.ToInt32(upDownUpdateDomains.Value); PropertyChanged(); }
private async Task SelectDependencies(TreeNode selectedNode) { if (this.AutoSelectDependencies && (selectedNode.Checked) && (selectedNode.Tag != null)) { if (selectedNode.Tag.GetType() == typeof(Azure.MigrationTarget.AvailabilitySet)) { Azure.MigrationTarget.AvailabilitySet targetAvailabilitySet = (Azure.MigrationTarget.AvailabilitySet)selectedNode.Tag; foreach (Azure.MigrationTarget.VirtualMachine targetVirtualMachine in targetAvailabilitySet.TargetVirtualMachines) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(targetVirtualMachine.TargetName, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.VirtualMachine))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } } if (selectedNode.Tag.GetType() == typeof(Azure.MigrationTarget.VirtualMachine)) { Azure.MigrationTarget.VirtualMachine targetVirtualMachine = (Azure.MigrationTarget.VirtualMachine)selectedNode.Tag; if (targetVirtualMachine.Source != null) { if (targetVirtualMachine.Source.GetType() == typeof(Azure.Asm.VirtualMachine)) { Azure.Asm.VirtualMachine asmVirtualMachine = (Azure.Asm.VirtualMachine)targetVirtualMachine.Source; #region process virtual network foreach (Azure.MigrationTarget.NetworkInterface networkInterface in targetVirtualMachine.NetworkInterfaces) { #region Auto Select Virtual Network from each IpConfiguration // This source code to auto select the Virtual Network as a Parent node has been commented out purposefully. // It was observed through use of MigAz that users were not aware that "including the Virtual Network" in multiple // migrations was actually creating new / independent / non-connected versions of the same Virtual Network. // It is valid that the user would want to migrate the Virtual Network during the first run migration; however, beyond // that first pass (the Azure ARM Virtual Network exists) the user is more likely to need to migrate the Virtual Machine(s) // into an existing Azure Virtual Network. In order to guide the user in this direction, we do not want to auto select the // source Virtual Network to be included in the Migration Template as a new Virtual Network. We want the user to explicitly // select and include the source Azure Virtual Network into the Migration Template (if they want to include it), or utilize // the built in property editor dialogs to "select an existing Virtual Network and Subnet". //foreach (Azure.MigrationTarget.NetworkInterfaceIpConfiguration ipConfiguration in networkInterface.TargetNetworkInterfaceIpConfigurations) //{ // if (ipConfiguration.TargetVirtualNetwork != null && ipConfiguration.TargetVirtualNetwork.GetType() == typeof(Azure.MigrationTarget.VirtualNetwork)) // { // Azure.MigrationTarget.VirtualNetwork targetVirtualNetwork = (Azure.MigrationTarget.VirtualNetwork)ipConfiguration.TargetVirtualNetwork; // foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(targetVirtualNetwork.SourceName, true)) // { // if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.VirtualNetwork))) // { // if (!treeNode.Checked) // treeNode.Checked = true; // } // } // } //} #endregion #region Auto Select Network Security Group if (asmVirtualMachine.NetworkSecurityGroup != null) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(asmVirtualMachine.NetworkSecurityGroup.Name, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.NetworkSecurityGroup))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } #endregion } #endregion } } } else if (selectedNode.Tag.GetType() == typeof(Azure.MigrationTarget.VirtualNetwork)) { Azure.MigrationTarget.VirtualNetwork targetVirtualNetwork = (Azure.MigrationTarget.VirtualNetwork)selectedNode.Tag; foreach (Azure.MigrationTarget.Subnet targetSubnet in targetVirtualNetwork.TargetSubnets) { if (targetSubnet.NetworkSecurityGroup != null) { if (targetSubnet.NetworkSecurityGroup.SourceNetworkSecurityGroup != null) { if (targetSubnet.NetworkSecurityGroup.SourceNetworkSecurityGroup.GetType() == typeof(Azure.Asm.NetworkSecurityGroup)) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(targetSubnet.NetworkSecurityGroup.SourceName, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.NetworkSecurityGroup))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } } } } } _AzureContextSource.StatusProvider.UpdateStatus("Ready"); } }
private async Task AsmSelectDependencies(TreeNode selectedNode) { if (this.AutoSelectDependencies && (selectedNode.Checked) && (selectedNode.Tag != null)) { if (selectedNode.Tag.GetType() == typeof(Azure.MigrationTarget.AvailabilitySet)) { Azure.MigrationTarget.AvailabilitySet targetAvailabilitySet = (Azure.MigrationTarget.AvailabilitySet)selectedNode.Tag; foreach (Azure.MigrationTarget.VirtualMachine targetVirtualMachine in targetAvailabilitySet.TargetVirtualMachines) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(targetVirtualMachine.TargetName, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.VirtualMachine))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } } if (selectedNode.Tag.GetType() == typeof(Azure.MigrationTarget.VirtualMachine)) { Azure.MigrationTarget.VirtualMachine targetVirtualMachine = (Azure.MigrationTarget.VirtualMachine)selectedNode.Tag; if (targetVirtualMachine.Source != null) { if (targetVirtualMachine.Source.GetType() == typeof(Azure.Arm.VirtualMachine)) { Azure.Arm.VirtualMachine armVirtualMachine = (Azure.Arm.VirtualMachine)targetVirtualMachine.Source; #region process virtual network // This source code to auto select the Virtual Network as a Parent node has been commented out purposefully. // It was observed through use of MigAz that users were not aware that "including the Virtual Network" in multiple // migrations was actually creating new / independent / non-connected versions of the same Virtual Network. // It is valid that the user would want to migrate the Virtual Network during the first run migration; however, beyond // that first pass (the Azure ARM Virtual Network exists) the user is more likely to need to migrate the Virtual Machine(s) // into an existing Azure Virtual Network. In order to guide the user in this direction, we do not want to auto select the // source Virtual Network to be included in the Migration Template as a new Virtual Network. We want the user to explicitly // select and include the source Azure Virtual Network into the Migration Template (if they want to include it), or utilize // the built in property editor dialogs to "select an existing Virtual Network and Subnet". //foreach (Azure.Arm.NetworkInterface networkInterface in armVirtualMachine.NetworkInterfaces) //{ // foreach (Azure.Arm.NetworkInterfaceIpConfiguration ipConfiguration in networkInterface.NetworkInterfaceIpConfigurations) // { // if (ipConfiguration.VirtualNetwork != null) // { // foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(ipConfiguration.VirtualNetwork.Name, true)) // { // if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.VirtualNetwork))) // { // if (!treeNode.Checked) // treeNode.Checked = true; // } // } // } // } //} #endregion #region process managed disks if (armVirtualMachine.OSVirtualHardDisk.GetType() == typeof(Azure.Arm.ManagedDisk)) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(((Azure.Arm.ManagedDisk)armVirtualMachine.OSVirtualHardDisk).Name, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.Disk))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } foreach (Azure.Interface.IArmDisk dataDisk in armVirtualMachine.DataDisks) { if (dataDisk.GetType() == typeof(Azure.Arm.ManagedDisk)) { Azure.Arm.ManagedDisk managedDisk = (Azure.Arm.ManagedDisk)dataDisk; foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(managedDisk.Name, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.Disk))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } } #endregion #region OS Disk Storage Account if (armVirtualMachine.OSVirtualHardDisk.GetType() == typeof(Azure.Arm.ClassicDisk)) // Disk in a Storage Account, not a Managed Disk { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(((Azure.Arm.ClassicDisk)armVirtualMachine.OSVirtualHardDisk).StorageAccountName, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.StorageAccount))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } #endregion #region Data Disk(s) Storage Account(s) foreach (IArmDisk dataDisk in armVirtualMachine.DataDisks) { if (dataDisk.GetType() == typeof(Azure.Arm.ClassicDisk)) { Azure.Arm.ClassicDisk classicDisk = (Azure.Arm.ClassicDisk)dataDisk; foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(classicDisk.StorageAccountName, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.StorageAccount))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } else if (dataDisk.GetType() == typeof(Azure.Arm.ManagedDisk)) { Azure.Arm.ManagedDisk managedDisk = (Azure.Arm.ManagedDisk)dataDisk; foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(managedDisk.Name, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.Disk))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } } #endregion #region Network Interface Card(s) foreach (Azure.Arm.NetworkInterface networkInterface in armVirtualMachine.NetworkInterfaces) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(networkInterface.Name, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.NetworkInterface))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } if (networkInterface.NetworkSecurityGroup != null) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(networkInterface.NetworkSecurityGroup.Name, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.NetworkSecurityGroup))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } foreach (Azure.Arm.NetworkInterfaceIpConfiguration ipConfiguration in networkInterface.NetworkInterfaceIpConfigurations) { if (ipConfiguration.BackEndAddressPool != null && ipConfiguration.BackEndAddressPool.LoadBalancer != null) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(ipConfiguration.BackEndAddressPool.LoadBalancer.Name, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.LoadBalancer))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } if (ipConfiguration.PublicIP != null) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(ipConfiguration.PublicIP.Name, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.PublicIp))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } } } #endregion #region Parent Availability Set if (armVirtualMachine.AvailabilitySet != null) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(armVirtualMachine.AvailabilitySet.Name, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.AvailabilitySet))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } #endregion } } } else if (selectedNode.Tag.GetType() == typeof(Azure.MigrationTarget.VirtualNetwork)) { Azure.MigrationTarget.VirtualNetwork targetVirtualNetwork = (Azure.MigrationTarget.VirtualNetwork)selectedNode.Tag; foreach (Azure.MigrationTarget.Subnet targetSubnet in targetVirtualNetwork.TargetSubnets) { if (targetSubnet.NetworkSecurityGroup != null) { if (targetSubnet.NetworkSecurityGroup.SourceNetworkSecurityGroup != null) { if (targetSubnet.NetworkSecurityGroup.SourceNetworkSecurityGroup.GetType() == typeof(Azure.Arm.NetworkSecurityGroup)) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(targetSubnet.NetworkSecurityGroup.SourceName, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.NetworkSecurityGroup))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } } } } } else if (selectedNode.Tag.GetType() == typeof(Azure.MigrationTarget.LoadBalancer)) { Azure.MigrationTarget.LoadBalancer targetLoadBalancer = (Azure.MigrationTarget.LoadBalancer)selectedNode.Tag; if (targetLoadBalancer.Source != null) { if (targetLoadBalancer.Source.GetType() == typeof(Azure.Arm.LoadBalancer)) { Azure.Arm.LoadBalancer armLoadBalaner = (Azure.Arm.LoadBalancer)targetLoadBalancer.Source; foreach (Azure.Arm.FrontEndIpConfiguration frontEndIpConfiguration in armLoadBalaner.FrontEndIpConfigurations) { if (frontEndIpConfiguration.PublicIP != null) { foreach (TreeNode treeNode in selectedNode.TreeView.Nodes.Find(frontEndIpConfiguration.PublicIP.Name, true)) { if ((treeNode.Tag != null) && (treeNode.Tag.GetType() == typeof(Azure.MigrationTarget.PublicIp))) { if (!treeNode.Checked) { treeNode.Checked = true; } } } } } } } } _StatusProvider.UpdateStatus("Ready"); } }
public async Task <TreeNode> AddMigrationTargetToTargetTree(IMigrationTarget parentNode) { if (parentNode == null) { throw new ArgumentNullException("Migration Target cannot be null."); } TreeNode targetResourceGroupNode = SeekResourceGroupTreeNode(); if (parentNode.GetType() == typeof(Azure.MigrationTarget.VirtualNetwork)) { Azure.MigrationTarget.VirtualNetwork targetVirtualNetwork = (Azure.MigrationTarget.VirtualNetwork)parentNode; TreeNode virtualNetworkNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetVirtualNetwork.SourceName, targetVirtualNetwork.ToString(), targetVirtualNetwork, true); foreach (Azure.MigrationTarget.Subnet targetSubnet in targetVirtualNetwork.TargetSubnets) { TreeNode subnetNode = SeekARMChildTreeNode(virtualNetworkNode.Nodes, targetVirtualNetwork.ToString(), targetSubnet.ToString(), targetSubnet, true); } targetResourceGroupNode.ExpandAll(); return(virtualNetworkNode); } else if (parentNode.GetType() == typeof(Azure.MigrationTarget.StorageAccount)) { Azure.MigrationTarget.StorageAccount targetStorageAccount = (Azure.MigrationTarget.StorageAccount)parentNode; TreeNode storageAccountNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetStorageAccount.SourceName, targetStorageAccount.ToString(), targetStorageAccount, true); targetResourceGroupNode.ExpandAll(); return(storageAccountNode); } else if (parentNode.GetType() == typeof(Azure.MigrationTarget.NetworkSecurityGroup)) { Azure.MigrationTarget.NetworkSecurityGroup targetNetworkSecurityGroup = (Azure.MigrationTarget.NetworkSecurityGroup)parentNode; TreeNode networkSecurityGroupNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetNetworkSecurityGroup.SourceName, targetNetworkSecurityGroup.ToString(), targetNetworkSecurityGroup, true); targetResourceGroupNode.ExpandAll(); return(networkSecurityGroupNode); } else if (parentNode.GetType() == typeof(Azure.MigrationTarget.LoadBalancer)) { Azure.MigrationTarget.LoadBalancer targetLoadBalancer = (Azure.MigrationTarget.LoadBalancer)parentNode; TreeNode targetLoadBalancerNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetLoadBalancer.SourceName, targetLoadBalancer.ToString(), targetLoadBalancer, true); targetResourceGroupNode.ExpandAll(); return(targetLoadBalancerNode); } else if (parentNode.GetType() == typeof(Azure.MigrationTarget.PublicIp)) { Azure.MigrationTarget.PublicIp targetPublicIp = (Azure.MigrationTarget.PublicIp)parentNode; TreeNode targetPublicIpNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetPublicIp.SourceName, targetPublicIp.ToString(), targetPublicIp, true); targetResourceGroupNode.ExpandAll(); return(targetPublicIpNode); } else if (parentNode.GetType() == typeof(Azure.MigrationTarget.NetworkInterface)) { Azure.MigrationTarget.NetworkInterface targetNetworkInterface = (Azure.MigrationTarget.NetworkInterface)parentNode; TreeNode targetNetworkInterfaceNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetNetworkInterface.ToString(), targetNetworkInterface.ToString(), targetNetworkInterface, true); targetResourceGroupNode.ExpandAll(); return(targetNetworkInterfaceNode); } else if (parentNode.GetType() == typeof(Azure.MigrationTarget.AvailabilitySet)) { Azure.MigrationTarget.AvailabilitySet targetAvailabilitySet = (Azure.MigrationTarget.AvailabilitySet)parentNode; TreeNode targetAvailabilitySetNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetAvailabilitySet.ToString(), targetAvailabilitySet.ToString(), targetAvailabilitySet, true); targetResourceGroupNode.ExpandAll(); return(targetAvailabilitySetNode); } else if (parentNode.GetType() == typeof(Azure.MigrationTarget.VirtualMachine)) { Azure.MigrationTarget.VirtualMachine targetVirtualMachine = (Azure.MigrationTarget.VirtualMachine)parentNode; TreeNode virtualMachineParentNode = targetResourceGroupNode; TreeNode virtualMachineNode = SeekARMChildTreeNode(virtualMachineParentNode.Nodes, targetVirtualMachine.SourceName, targetVirtualMachine.ToString(), targetVirtualMachine, true); if (targetVirtualMachine.TargetAvailabilitySet != null) { if (targetVirtualMachine.TargetAvailabilitySet.SourceAvailabilitySet != null && targetVirtualMachine.TargetAvailabilitySet.SourceAvailabilitySet.GetType() == typeof(Asm.CloudService)) { // Adding under Virtual Machine, as it is not a managed disk TreeNode dataDiskNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetVirtualMachine.TargetAvailabilitySet.ToString(), targetVirtualMachine.TargetAvailabilitySet.ToString(), targetVirtualMachine.TargetAvailabilitySet, true); } } if (targetVirtualMachine.OSVirtualHardDisk.IsUnmanagedDisk) { // Adding under Virtual Machine, as it is not a managed disk TreeNode dataDiskNode = SeekARMChildTreeNode(virtualMachineNode.Nodes, targetVirtualMachine.OSVirtualHardDisk.ToString(), targetVirtualMachine.OSVirtualHardDisk.ToString(), targetVirtualMachine.OSVirtualHardDisk, true); } else { // Under Resource Group, as it is a managed Disk TreeNode dataDiskNode = SeekARMChildTreeNode(virtualMachineParentNode.Nodes, targetVirtualMachine.OSVirtualHardDisk.ToString(), targetVirtualMachine.OSVirtualHardDisk.ToString(), targetVirtualMachine.OSVirtualHardDisk, true); } foreach (Azure.MigrationTarget.Disk targetDisk in targetVirtualMachine.DataDisks) { if (targetDisk.IsUnmanagedDisk) { // Adding under Virtual Machine, as it is not a managed disk TreeNode dataDiskNode = SeekARMChildTreeNode(virtualMachineNode.Nodes, targetDisk.ToString(), targetDisk.ToString(), targetDisk, true); } else { // Under Resource Group, as it is a managed Disk TreeNode dataDiskNode = SeekARMChildTreeNode(virtualMachineParentNode.Nodes, targetDisk.ToString(), targetDisk.ToString(), targetDisk, true); } } foreach (Azure.MigrationTarget.NetworkInterface targetNetworkInterface in targetVirtualMachine.NetworkInterfaces) { if (targetNetworkInterface.SourceNetworkInterface != null && targetNetworkInterface.SourceNetworkInterface.GetType() == typeof(Azure.Asm.NetworkInterface)) { // We are only adding as a child node if it is an ASM Network Interface, otherwise we expect this to follow ARM convention in which NIC is a first class object in the resource group (not embededded under the VM). TreeNode networkInterfaceNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetNetworkInterface.ToString(), targetNetworkInterface.ToString(), targetNetworkInterface, true); } } targetResourceGroupNode.ExpandAll(); return(virtualMachineNode); } else if (parentNode.GetType() == typeof(Azure.MigrationTarget.Disk)) { Azure.MigrationTarget.Disk targetDisk = (Azure.MigrationTarget.Disk)parentNode; TreeNode targetDiskNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetDisk.SourceName, targetDisk.ToString(), targetDisk, true); targetResourceGroupNode.ExpandAll(); return(targetDiskNode); } else if (parentNode.GetType() == typeof(Azure.MigrationTarget.VirtualMachineImage)) { Azure.MigrationTarget.VirtualMachineImage targetVirtualMachineImage = (Azure.MigrationTarget.VirtualMachineImage)parentNode; TreeNode targetVirtualMachineImageNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetVirtualMachineImage.SourceName, targetVirtualMachineImage.ToString(), targetVirtualMachineImage, true); targetResourceGroupNode.ExpandAll(); return(targetVirtualMachineImageNode); } else if (parentNode.GetType() == typeof(Azure.MigrationTarget.NetworkInterface)) { Azure.MigrationTarget.NetworkInterface targetNetworkInterface = (Azure.MigrationTarget.NetworkInterface)parentNode; TreeNode targetNetworkInterfaceNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetNetworkInterface.SourceName, targetNetworkInterface.ToString(), targetNetworkInterface, true); targetResourceGroupNode.ExpandAll(); return(targetNetworkInterfaceNode); } else if (parentNode.GetType() == typeof(Azure.MigrationTarget.RouteTable)) { Azure.MigrationTarget.RouteTable targetRouteTable = (Azure.MigrationTarget.RouteTable)parentNode; TreeNode targetRouteTableNode = SeekARMChildTreeNode(targetResourceGroupNode.Nodes, targetRouteTable.SourceName, targetRouteTable.ToString(), targetRouteTable, true); targetRouteTableNode.ExpandAll(); return(targetRouteTableNode); } else { throw new Exception("Unhandled Node Type in AddMigrationTargetToTargetTree: " + parentNode.GetType()); } }