The Cisco Virtual Security Gateway (VSG) is a virtual firewall appliance that provides trusted access to virtual data center and cloud environments. The Cisco VSG enables a broad set of multitenant workloads that have varied security profiles to share a common compute infrastructure in a virtual data center private cloud or in a public cloud. By associating one or more virtual machines (VMs) into distinct trust zones, the Cisco VSG ensures that access to trust zones is controlled and monitored through established security policies.

Figure 1. Trusted Zone-Based Access Control Using Per-Tenant Enforcement with the Cisco VSG

The Cisco VSG is available in three different models (small, medium, and large) based on the memory, number of virtual CPUs, and CPU speed. . The following table lists the available Cisco VSG models:

When a VEM sees a packet for a protected VM for the first time, the VEM redirects the packet to the Cisco VSG to determine what action needs to be taken (for example, permit, drop, or reset). After the decision is made, both the Cisco VSG and VEM save the connection information and the action for a period of time. During this time, packets for this connection follow the same action without any extra policy lookup. This connection is a connection in a fast path mode. Depending on the traffic and the action, the amount of time that a connection stays in the fast path mode varies. The following table provides the timeout details for the connections in the fast path mode.

You can transparently insert a Cisco VSG into the VMware vSphere environment where the Cisco Nexus 1000V distributed virtual switch is deployed. One or more instances of the Cisco VSG is deployed on a per-tenant basis, which allows a high scale-out deployment across many tenants. Tenants are isolated from each other, so no traffic can cross tenant boundaries. You can deploy the Cisco VSG at the tenant level, at the virtual data center level, and at the vApp level.

As VMs are instantiated for a given tenant, their association to security profiles and zone membership occurs immediately through binding with the Cisco Nexus 1000V port profile. Each VM is placed upon instantiation into a logical trust zone. Security profiles contain context-aware rule sets that specify access policies for traffic that enters and exits each zone. In addition to VM and network contexts, security administrators can also use custom attributes to define zones directly through security profiles. Controls are applied to zone-to-zone traffic as well as to external-to-zone (and zone-to-external) traffic. Zone-based enforcement can also occur within a VLAN, as a VLAN often identifies a tenant boundary. The Cisco VSG evaluates access control rules and then, if configured, off-loads enforcement to the Cisco Nexus 1000V VEM vPath module. The Cisco VSG can permit or deny access and optional access logs can be generated. The Cisco VSG also provides a policy-based traffic monitoring capability with access logs.

A Cisco VSG tenant can protect its VMs that span multiple hypervisors. Each tenant can also be assigned with an overlapping (private) IP address space, which is important in multitenant cloud environments.

A virtualization environment is dynamic, where frequent additions, deletions, and changes occur across tenants and across VMs. Additionally, live migration of VMs can occur due to manual or programmatic VMotion events. The following figure shows how a structured environment can change over time due to this dynamic VM environment.

The Cisco VSG operating with the Cisco Nexus 1000V (and vPath) supports a dynamic VM environment. Typically, when you create a tenant on the Cisco Prime Network Services Controller (Prime NSC) with the Cisco VSG (standalone or active-standby pair), associated security profiles are defined that include trust zone definitions and access control rules. Each security profile is bound to a Cisco Nexus 1000V port profile (authored on the Cisco Nexus 1000V Virtual Supervisor Module [VSM] and published to the VMware Virtual Center). When a new VM is instantiated, the server administrator assigns port profiles to the virtual Ethernet port of the VM. Because the port profile uniquely refers to a security profile and VM zone membership, security controls are immediately applied. A VM can be repurposed by assigning a different port profile or security profile.

As VMotion events are triggered, VMs move across physical servers. Because the Cisco Nexus 1000V ensures that port profile policies follow the VMs, associated security profiles also follow these moving VMs, and security enforcement and monitoring remain transparent to VMotion events.

Figure 3. Cisco VSG Security in a Dynamic VM Environment, Including VM Live Migration

The current release supports the Cisco VSG deployment in the Layer 3 mode. The Cisco VSG and the VEM are no longer required to be in the same Layer 2 network. The VEM and the Cisco VSG communicate with each other through a special virtual network interface called the Virtual Kernel NIC (vmknic). This vmknic is created by an administrator.

Note	Layer 2 adjacency to the VEM means that vPath can talk to the Cisco VSG in Layer 2 without a router because vPath and the Cisco VSG belong to the same Layer 2 network.

vPath is embedded in the Cisco Nexus 1000V Series switch VEM. It intercepts the VM to VM traffic and then redirects the traffic to the appropriate virtual service node. For details, see the Cisco vPath and vServices Reference Guide for VMware vSphere.

The Cisco network virtual service (vservice) is supported by the Cisco Nexus 1000V using the vPath. It provides trusted multitenant access and supports the VM mobility across physical servers for workload balancing, availability, or scalability. For details, see the Cisco vPath and vServices Reference Guide for VMware vSphere.

When you install a Cisco VSG on a virtualized data center network, you must change the configuration of the Cisco Nexus 1000V Series switch VSM and the Cisco VSG.

Note	For information about how to configure the Cisco VSG for the Cisco Nexus 1000V Series switch and the Cisco Cloud Service Platform Virtual Services Appliance, see the Cisco vPath and vServices Reference Guide for VMware vSphere.

Before configuring a Cisco VSG in Layer 3 mode, create a Layer 3 vmknic

This section is an overview of the sequences that you, as an administrator, must follow when configuring a Cisco VSG in Layer 3 mode:

1. Install and set up a Cisco Prime NSC service VM and configure the Cisco Prime NSC with a valid IP address.

2. If you plan to use custom attributes in the firewall policy, create a set of custom attributes in a security profile configuration on the Cisco Prime NSC.

3. Write a firewall policy on the Cisco Prime NSC by using appropriate policy objects such as object groups, zones, rules, conditions, actions, and policies.

4. After the firewall policy is created, bind the policy to the security profile that was previously created on the Cisco Prime NSC.

5. Bring up a Cisco VSG and associate it to the appropriate compute firewall on the Cisco Prime NSC.

6. Configure the vmknics for the Layer 3 mode Cisco VSG encapsulation.

7. Configure VSG and virtual network adapter in same VLAN/network.

8. Define the vservice node.

9. After the security profile and firewall policy are fully configured, you can bind the security profile and the service node with the VM port profiles that demand access protection provided by the Cisco VSG through the port profile management interface on the VSM.

Figure 4. Cisco Virtual Security Gateway Layer 3 Configuration Flow