Dynamic Enforcement for Network Selection in vRA 7

December 22, 2016 - - 6 Comments

I’m working in the design and deployment of a large Enterprise Cloud project where the multi-tenancy is vital for the success of the project. When you work in a private cloud project a common shared infrastructure is the typical approach to make feasible the business case. Usually, the physical segregation is based mainly on security requirements and not anymore on whom purchased the hardware. The multi-tenancy segregation is moved up to the logical level, making the infrastructure a shared commodity.

From network standpoint, the logical segregation is supported by the use of VLAN, PVLAN, GRE, VXLAN protocols and so on. Every time a virtual machine is provisioned through vRealize Automation, it requires the network access to communicate with other workloads.

In the case of vSphere as an endpoint in vRA, the NIC(s) of the virtual machine will be connected to one of the port groups available within the reservation where that is being provisioned. The first level of logical segregation in vRA is the business group object, where it can have one or more reservations (the second level). If the user is not member of the business group with the linked reservation(s), it cannot provision any virtual machine on that.


The reservation includes what network(s) the user can connect its virtual machine, but these networks are not populated dynamically in vRA. The easy approach is the creation of the custom property called “VirtualMachine.NetworkN.Name”, where the N is the index of your virtual machine NIC (starting at 0). During the creation of this custom property, you will have the chance to create a static list, or a dynamic one using any script action you have available in your vRealize Orchestrator platform that vRA is consuming.

The main challenge of a static list is the maintenance of the network list that is shown to the user, also this list is shared for all the users. From security standpoint, this is not an issue since the network must be enabled in the user reservation, if that is not enabled the user will get an error that the virtual machine cannot be provisioned because the reservation is not entitled to consume the network. While this is not involve a security breach, expose the whole network list is not the best approach since sensitive information can be contained in the network name. For this reason, create a dynamic network list on fly based in the user business group and the linked reservation to that, seems like the better approach I’ve found until now. When you’re dealing with a multi-tenancy environment, the security requirements are always the most importance piece of the design.

To achieve that, we are going to leverage a built-in vRO action available from version 7.1 called “getApplicableNetworks” (getApplicableNetworks). We will tweak a bit this action since out-of-the-box shows all the entitled networks for the user regardless for what business group is requesting the virtual machine. To filter the networks based in the business group, we will create a custom property in the business group with the value equal to the business group name. The reason to create this custom property in the business group is because this is not exposed during the wizard, for this reason vRO cannot get the value using the ASD properties. To solve this gap, the vRO action will include a string input populating the value of the business group custom property.

vRO Configuration

Let’s start with the configuration of our dynamic enforced network list:

  • Copy the built-in vRO action in a new location. With this step we ensure in future releases of the vRA plug-in nothing is broken. Also, the copy will be the action to modify and include the filter to retrieve only the business group’s reservation(s) that the requester is entitled for.

Copy the vRO script action “getApplicableNetworks”

In vRealize Orchestrator version 7.2, VMware has changed the action code and the previous dependency in 7.1 with the action called “getReservationsForUser”, has been changed to “getReservationsForUserAndComponent”. The issue is the action “getApplicableNetworks” doesn’t work in 7.2 anymore because VMware has forgotten to update the script to include as an input some values that the dependency “getReservationsForUserAndComponent” requires.

If you are using vRO 7.1, you can skip this step.

  • Duplicate the current “getReservationsForUserAndComponent” action

Duplicate the “getReservationsForUserAndComponent” action

  • Downgrade to version 1.0. The action name will be changed to “getReservationsForUser”.

Downgrade the copied action to version 1.0 (getReservationsForUser)

  • Edit the copied action and add a string input called “subtenant”

Add a string input

  • Go to the script tab and update the 4th line with the action folder and name you have duplicated and downgraded above.

var reservations = System.getModule(“com.joseluisgomez.vra.reservations“).getReservationsForUser(user, tenant, host);

  • Between the 4th line (var reservations) and the 5th line (var applicableNetworks), add the following line to find the business group populated with the custom property value from vRA.

var subtenants = vCACCAFEEntitiesFinder.findSubtenants(host, subtenant);

Code updated (lines 4th and 5th)

  • The last step with the action is to add a conditional. It will look for the business group name (subtenant name) matching with the input populated in vRA in all the gather reservations. Add the following line after the “for each“, also you can add an additional tabulation to the current code to properly align. In addition, an additional closing curly bracket is required to close the conditional. The red code is the new one to add.

for each(var res in reservations) {
 if(res.getSubTenantId() == subtenants[0].id){
  var extensionData = res.getExtensionData();
  if(extensionData) {
   var networks = extensionData.get(“reservationNetworks”);
   if(networks) {
    for each(var network in networks.getValue()) {
     var path = network.getValue().get(“networkPath”);
     applicableNetworks.put(path.label, path.label);
return applicableNetworks;

Conditional to add

We are done with vRO. Now it’s the moment to consume this action from vRA and our blueprint.

vRA Configuration

  • Create a custom property for the business group with your preferred name. In my case, I’ve used the following one:
    • Property name. NGDC.Software.VMware.vRA.Subtenant.Name
    • Property value. The business group name (ex.: Tenant_Environment_Service_Index)

Custom Property with Business Group’s name as value

  • Create a custom property definition called “VirtualMachine.Network0.Name” with the following settings:
    • Name: VirtualMachine.Network0.Name
    • Label: Select a network
    • Visibility: All tenants
    • Display order: 1
    • Data type: string
    • Required: yes
    • Display as: Dropdown
    • Values: External values
    • Script action: Click the change button and select the script action called getApplicableNetworksBySubtenant we have created in the previous steps.
    • Input parameters: Check the bind checkbox and as value type the business group custom property “NGDC.Software.VMware.vRA.Subtenant.Name“. Note: The business group custom properties are not automatically discovered if you click the dropdown list. You must type the custom property.

  • The last step is to add into the blueprint the custom property definition you have created in the step above. The blueprint doesn’t require any network object, just the vSphere virtual  machine object and add to that a virtual NIC. The virtual NIC0 must have as custom property the following one:
    • Name: VirtualMachine.Network0.Name
    • Value: Empty
    • Encrypted: No
    • Overridable: Yes
    • Show in Request: Yes

Blueprint custom property


The best way to test our custom property definition is to create two business groups with one reservation each, make the same user the group manager and create two service catalogue entitlements, one for each business group.

The next screenshot shows the first business group (Tenant1-Global). As you can see, this business group has two networks. A static dvPortGroup (Main) and a NSX VXLAN dvPortGroup (5008-Photon-Hosts)

Tenant1-Global business group dynamic enforced network list

The following screenshot shows the networks for the second business group (CORP_PROD_APP1_01). As you can see, the business groups also has two networks but different ones. Two NSX VXLAN dvPortGroups (5005-NTXCE-Mgmt and 5004-NTXCE-VMs)

CORP_PROD_APP1_01 business group dynamic enforced network list


I hope you have found it useful and can help you with new and current deployments. This is the best approach I have found until now supporting the multi-tenancy based in business group. This approach also works if the multi-tenancy is done using the tenant functionality in vRA.

If you have liked it, don’t hesitate to share it with your contacts.

How to operate your Home Lab with a Raspberry Pi – Part 1

October 23, 2016 - - 2 Comments

For a long time I wanted to give some use to an old Raspberry Pi (Model B Revision 2.0 – 2011.12). Since I acquired my C6100 for home lab purpose, I was aware I couldn’t keep it powered on 24/7. From noise and consumption standpoint, it’s not the most friendly home lab you can buy. In the other hand, you have a bunch of resources to run your workloads for a reduced cost.

With the noise and power consumption as concern, I knew on some manner I should remotely control the home lab to power it on/off in the event I required to work on it, or run a demo for a customer from its facilities.

With the requirements above, I found the Raspberry Pi as the device to support the following user cases aligned with the requirements:

  • VPN server
  • Dynamic DNS client
  • Control station to operate the remote controlled sockets
  • Control station to operate the home lab power state

The following diagram depicts how to operate your Home Lab with a Raspberry Pi using different components and software.

How to operate your home lab with a raspberry pi

VPN server

This use case will be covered in the second part of this post series. But as a brief introduction, the VPN service will be deployed using an Ansible role I’ve created, pipoe2h.pivpn ( This role will install and configure OpenVPN in your Raspberry Pi. Maybe you are wondering the reason to not use pfSense, it’ has not support for ARM.

Dynamic DNS client

This use case will be covered in the third part of this post series. But as a brief introduction, this use case doesn’t cover only the configuration of a dynamic DNS client. The idea is to run your own Dynamic DNS service if your web hosting runs CPanel. If you are one of those with CPanel, you will have the chance to create your own DynDNS service and keep alive the access to your home lab wherever you are. The DynDNS service will be deployed using an Ansible role I’ve created, pipoe2h.piddns ( This role will install and configure a PHP page in your website as entry point to dynamically configure your home lab DNS record. The DynDNS client is modified to support the integration with your own DynDNS service.

Control station

The Raspberry Pi gives you the chance to be the only machine to be powered on and reduce the power consumption. You can use the Raspi as the jump box to operate your entire home lab.

Operate the remote controlled sockets

This use case will be covered in the fourth part of this post series. But as a brief introduction, since the enterprise PDUs with management interface to power your devices on/off are expensive, I found a cheaper way to get at least the control to power on/off of those. You can install to your Raspi a remote control board. Using remote controlled sockets you can achieve a close experience like the enterprise PDUs. I bought the Energenie kit ENER002-2PI for £22.

How to operate your home lab with a raspberry pi

Operate the home lab power state

This use case will be covered in the fifth part of this post series. But as a brief introduction, once you have switched the socket on, you are able to use IPMI or WOL to power on your server(s). I’ll share with you the PowerCLI I’ve created to power on/off your ESXi hosts and the virtual machines within.