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In a modern corporate network, server connections are critical. However, like other parts of the network, they are also vulnerable. Server connections depend on secure cabling connections and this means that, as soon as a cable gets damaged or inadvertently pulled loose, the server connection can disappear.
Adapter mirroring is a way of protecting server connections. It
involves fitting the server with a second adapter which - whenever
necessary - can take over from the first one automatically and
without disruption to network users.
In a server with mirrored adapters installed, one adapter is called the Master or Primary adapter and the other is called the Slave or Standby adapter. The Master adapter opens onto the network using a Locally Administered Address (LAA). If the adapter's driver detects a problem with its connection to the hub, it shuts down the Master adapter and opens the Slave adapter onto the ring. The Slave adapter opens using the same LAA as was previously used by the Master adapter.
Once the changeover has taken place, the network administrator
can fix the problem that made it necessary. Then, if for any reason
the connection provided by the Slave adapter fails, the Master
will automatically take over again.
For effective adapter mirroring, you should connect the adapters
to the same CAU but by using different cabling paths. This way
the cables for both adapters are less likely to damaged in a single
incident. If you do use a different CAU for each adapter, make
sure that the two CAUs are not separated by a source routing bridge.
Otherwise client PCs will not be able to communicate with the
server by using the same addressing information (despite the server's
LAA being the same) as they used before the server performed its
adapter changeover.
If the device driver on a mirrored adapter detects a hardware problem, for example, a lobe cable fault or a signal loss, it automatically changes over to the alternative adapter. In the event of a lobe cable fault, an adapter always goes through a fault-recovery procedure. With adapter mirroring, however, you can set a timer that causes the device driver to change adapters before the fault-recovery cycle is complete. This minimises any pause in network services that users might otherwise experience. (Note that, under Windows NT, the changeover process is governed by the NT system, and not by the device driver.)
The device driver will also start using the alternative adapter if the ring is beaconing persistently. You can set a timer to govern this as well. After the period you specify, the driver will change adapters to enable the server to try communicating over a different cabling path.
Finally, you can configure the driver to change adapters if it
becomes isolated on the ring. By default, Madge drivers do not
change adapters in this case (it is normal for an adapter to be
the only member of a ring at times, for example, when the server
starts up). However, you can set a timer which causes the driver
to change adapters after a certain period of isolation. This ensures
that, for example, the server connection survives even if the
CAU has detected a cabling problem and isolated the adapter the
server is using.
The Madge driver MMIRROR.NLM supports adapter mirroring for Smart
Ringnodes in NetWare servers.
The Madge NDIS3 Miniport driver supports adapter mirroring for
Smart Ringnodes in Windows NT servers.
![[Using Madge Wizard]](../../../graphics/bk_mdgw.gif)
![[Ringnode Installation]](../../../graphics/bk_hw.gif)
![[Driver Installation]](../../../graphics/bk_sw.gif)
![[Ringnode Config and Diag]](../../../graphics/bk_cfg.gif)
![[Additional Information]](../../../graphics/bk_plus.gif)
