Expected Behavior of Multiple Adapters on Same Network (175767)



The information in this article applies to:

  • Microsoft Windows 2000 Server
  • Microsoft Windows 2000 Advanced Server
  • Microsoft Windows 2000 Professional
  • Microsoft Windows NT Workstation 4.0
  • Microsoft Windows NT Server 4.0
  • Microsoft Windows NT Server, Enterprise Edition 4.0

This article was previously published under Q175767

SUMMARY

If you configure a Windows-based computer that has more than one network adapter on the same physical network and subnet, you may experience unexpected results. This article discusses expected behavior of this type of nonstandard configuration.

MORE INFORMATION

Consider the following configuration of a Windows-based computer:
  • A working computer that has Windows installed.
  • Two network adapters connected to the same physical network (or hub).
  • TCP/IP installed as the network protocol.
  • Adapter addresses on the same subnetwork 192.168.0.1 and 192.168.0.2.
  • Assume a client on the network uses the address 192.168.0.119.
When you use this configuration, you may expect the two adapters on the same network and protocol subnetwork to perform some kind of load balancing. By definition of the Ethernet network topology, only one adapter may communicate on the network at the same time. Therefore, both adapters cannot be transmitting at the same time and must wait if another device on the network is transmitting. Additionally, broadcast messages must be handled by each adapter as they are both listening on the same network. If anything, this configuration requires more overhead, not taking into consideration any protocol-related issues. This configuration is not a good method to provide a redundant network adapter for the same network.

Assume that the server needs to send a packet using the TCP/IP protocol to a client with the address 192.168.0.119. This address is on the local subnet, so use of a gateway is not required to reach the client. The protocol stack uses the first route it finds in the local routing table. This is typically the first adapter installed, which, in this case, is 192.168.0.1. If the transmission fails, subsequent retries may use the same adapter according to the entry found in the routing table.

If the network cable for the 192.168.0.1 adapter fails, this does not necessarily cause the routing table to be updated with the removal of the route. Therefore, the second adapter still may not be used.

Another consideration is that some network applications bind to specific adapters in the system. If a network application were to bind to the second adapter specifically, application-related traffic received from clients on the first adapter may be ignored by the application. This may be a result of NetBIOS name registration on the network. Additionally, if the adapter fails to which the application is bound, the application may fail if it does not decide to use the other adapter. Depending on the application, the other adapter may or may not be used.

In most instances, unless applications specifically demand, this type of configuration is not beneficial. Some manufacturers make fault-tolerant network adapters to guard against a single point of failure. These adapters enable two adapters to be placed in the same server, but only enable use of one adapter at a time. If the primary adapter fails, the driver deactivates the first card and activates the second with the same address configuration. The end result is a fairly seamless transition to the alternate adapter. This is the preferred method to guard against a single network adapter as a single point of failure.

Microsoft Cluster Server

Microsoft Cluster Server (MSCS) does not make use of additional adapters on the same network and relies on existing features of the TCP/IP protocol. In the event of adapter failure, the software does not automatically try to register IP Address Resource addresses on the other adapter. If you want to avoid a single network adapter as a single point of failure, consider use of a fault-tolerant network adapter set as mentioned previously in this article.

The preceding information applies to the broadcast route. For the route to the subnet, it uses the highest numerical IP address within the subnet. For example, assume two adapters with IP addresses 192.168.0.1 and 192.168.0.2, where 192.168.0.1 was installed first. This creates the following routes:
   192.168.0.0   255.255.255.0  192.168.0.1    192.168.0.1
   192.168.0.0   255.255.255.0  192.168.0.2    192.168.0.2
   192.255.255.255   255.255.255.255  192.168.0.1  192.168.0.1
   255.255.255.255   255.255.255.255  192.168.0.1  192.168.0.1
				

Modification Type:MinorLast Reviewed:1/5/2006
Keywords:kbinfo kbnetwork KB175767