In some cases, you might want to allow a client on an external network to
send a request directly to a specific internal node (thus bypassing the normal load balancing server selection). To send a request directly to an internal server, a client normally needs to know the internal nodes IP address, which is typically a private class IP address. Because private class IP addresses are non-routable, you can instead create a network translation address (NAT). A NAT
is a feature of BIG-IP®
Local Traffic ManagerTM
that provides a routable IP address that an external node can use to send traffic to, or receive traffic from, an internal node.
More specifically, a NAT
is an address translation object that instructs Local Traffic Manager to translate one IP address in a packet header to another IP address. A NAT consists of a one-to-one mapping of a public IP address to an internal private class IP address.
| || |To translate a private class destination address to a public address
When an external node sends traffic to the public IP address defined in a NAT, Local Traffic Manager automatically translates that destination address to the associated private class IP address, which represents a specific node on the internal network. This translation is hidden from the external node that sent the traffic.
When you create a NAT, you can map only one private class IP address to a
specific public IP address. That is, a NAT always represents a one-to-one mapping between a private class IP address and a public IP address. If you want to map more than one private class IP address (that is, multiple internal nodes) to a single public IP address, you can create a SNAT instead.
shows the settings that you can configure for a NAT, with a description of each.
With respect to NATs, an inbound
connection is a connection that is initiated by a node on an external network, and comes into the BIG-IP system to a node on the internal network.
Normally, traffic coming into the BIG-IP system is load balanced to a server
in a pool, based on the load balancing method configured for that pool, in the following way:
| || |The pool member then sends its response back through the BIG-IP
system, using a route specified in the server nodes routing table (ideally, a floating IP address assigned to an internal VLAN). On receiving the response, Local Traffic Manager then performs the reverse translation; that is, the system translates the pool members actual source address to the virtual server address. This results in the source address in the response to the client being the virtual server address, which is the source address that the client expects to see.
This typical load balancing scenario ensures that for load balanced traffic,
the client system never sees the internal private class IP address of an internal node.
If the client system wants to bypass the load balancing mechanism to send
packets directly to a specific node on the internal network, the client needs a routable IP address to use to send packets to that server node.
A NAT solves this problem by providing a routable address that a client can
use to make a request to an internal server directly. In this way, a NAT performs the same type of address translation that a virtual server performs when load balancing connections to pool members. In the case of a NAT, however, no load balancing occurs, because the client is sending a request to a specific node. The NAT translates the public destination IP address in the request to the private class IP address of the internal node.
When the server node sends the response, Local Traffic Manager performs
the reverse translation, in the same way that a virtual server behaves. (For more information on this reverse translation, see Without a NAT
Suppose a node on the internal network (such as a load balancing server) has
a private class IP address of 172.16.20.3
. You can create a NAT designed to translate a public destination address of your choice (such as 220.127.116.11)
to the private class address 172.16.20.3
. Consequently, whenever a node on the external network initiates a connection to the address 18.104.22.168
, Local Traffic Manager translates that public destination address to the private class address 172.16.20.3
illustrates the address translation that occurs for an inbound connection.
The previous section summarized how a BIG-IP system normally load
balances incoming traffic, and translates the source IP address in a response back to the virtual address.
Sometimes, however, an internal node needs to initiate a connection, rather
than simply respond to a request. When a node on an internal network initiates a connection, the connection is considered to be an outbound
connection. In this case, because the outgoing packets do not represent a response to a load-balanced request, the packets do not pass through a virtual server, and therefore the system does not perform the usual source IP address translation.
Without a NAT, the source IP address is a non-routable address. With a
NAT, however, Local Traffic Manager translates the internal nodes private class IP address to a public IP address, to which the external node can then route its response.
Suppose an internal node (such as a mail server) has a private class IP
address of 172.16.20.1
You can create a NAT designed to translate the private class address 172.16.20.1
to a public source address of your choice (such as 22.214.171.124
). Consequently, whenever the internal node 172.16.20.1
initiates a connection destined for a node on the external network, the system translates that source address of 172.16.20.1
to its public address (126.96.36.199
, illustrates the address translation that occurs for an outbound connection.
In this example, the NAT provides a way for an internal node to initiate a
connection to a node on an external network, without showing a private class IP address as the source address.
As previously mentioned, a NAT has two settings; NAT Address
and Origin Address
. In this example:
A NAT always represents a one-to-one mapping between a public address
and a private class address. However, if you would like to map multiple internal nodes to a single public address, you can use a secure network translation address (SNAT) instead of a NAT. You can use SNATs for outbound connections only.