Electrical computers and digital processing systems: multicomput – Network computer configuring – Reconfiguring
Reexamination Certificate
1999-10-22
2003-11-18
Winder, Patrice (Department: 2155)
Electrical computers and digital processing systems: multicomput
Network computer configuring
Reconfiguring
C709S222000, C709S242000
Reexamination Certificate
active
06651093
ABSTRACT:
BACKGROUND
The disclosures herein relate generally to use of virtual local area networks (“VLANs”) in a manufacturing environment and, more particularly, to a technique for dynamically connecting a system under test (“SUT”) to and disconnecting an SUT from a private VLAN in a computer manufacturing environment.
This application relates to co-pending U.S. patent application Ser. No. 09/177,420, filed on Oct. 22, 1998, entitled TROUBLESHOOTING COMPUTER SYSTEMS DURING MANUFACTURING USING STATE AND ATTRIBUTE INFORMATION, naming Subhashini Rajan, Roger Wong and Richard D. Amberg as inventors now U.S. Pat. No. 6,285,967; U.S. application Ser. No. 09/150,800, filed on Sep. 10, 1998, entitled AUTOMATIC LOCATION DETERMINATION OF DEVICES UNDER TEST, naming Subhashini Rajan and Roger Wong as inventors now U.S. Pat. No. 6,477,486; and U.S. patent application Ser. No. 09/206,046, filed on Dec. 4, 1998, entitled DYNAMIC BURN RACK MONITOR LISTENER SERVER, naming Robert King and Roger Wong as inventors now U.S. Pat. No. 6,351,769. These co-pending applications are incorporated herein by reference in their entirety, and are assigned to the assignee of this invention.
In a computer manufacturing environment, once a computer system is physically assembled, it is placed in a bay, or “cell,” in a burn rack for testing and software configuration. Each burn rack bay includes various connectors, including a network connection for connecting a computer system, or “system under test” (“SUT”), disposed in the bay to a main manufacturing network of the manufacturer. The network connection to the main manufacturing network enables software to be downloaded to and various diagnostics to be performed on the SUT while it is disposed within the burn rack.
In some cases, several SUTs being configured for the same customer require, in addition to conventional software installation and performance of diagnostics tests, some sort of custom configuration. For example, the customer may require that one or more of its systems be configured as Microsoft Outlook® clients or as dynamic host configuration protocol (“DHCP”) servers or that confidential security data be preloaded onto the system. Often, this sort of custom configuration would conflict with the main manufacturing network. For example, if an SUT is to be configured as a DHCP server, once the SUT is up and running on the network, it will begin advertising its presence and capturing and attempting to respond to requests from other SUTs on the main manufacturing network. Alternatively, it may require the transmission of data that is proprietary to the customer and hence, should not be made accessible to non-customer SUTs on the main manufacturing network Accordingly, such custom configuration needs to be performed “off-line”; that is, off of the main manufacturing network.
In the past, this has been accomplished by physically disconnecting the SUT from the manufacturing network and performing the required custom configuration in a laboratory environment. More recently, virtual local area network (“VLAN”) technology has been used to logically separate physically proximate SUTs onto separate, private, networks, providing a way to isolate a DHCP server. Previously, this has been accomplished by providing within the burn rack bay(s) a second network connection to the private network and then disconnecting the SUT from the main manufacturing network and connecting it to the private network when custom configuration is to be performed, and then reconnecting the SUT to the main manufacturing network, if necessary, after custom configuration. Clearly, the problem with this solution is that the disconnection and reconnection must be performed manually, leaving room for operator error and making it more time-consuming and expensive, in terms of operator cost, than if the connection to and disconnection from the private network at the appropriate times could be performed automatically.
In addition, the foregoing solution requires that an additional connector to each of the private networks be included in each of the burn rack bays, such that it becomes increasingly expensive with each additional private network that is required. Alternatively, several bays could be associated with each of the private networks, such that each bay would only include one additional connector to network with which it is associated. This solution is also problematic in that it requires that each SUT be placed in a particular burn rack bay, rather than the first available or most convenient burn rack bay for the SUT. In addition, manual intervention would still be required to disconnect and reconnect the SUT to the appropriate network at the appropriate times. Moreover, in each of the above-described scenarios involving VLAN technology, the SUT is statically connected to a preset VLAN.
Therefore, what is needed is a technique for implementing a dynamic VLAN (“DVLAN”) arrangement in which SUTs are automatically dynamically connected to an appropriate one of a plurality of VLANs.
SUMMARY
One embodiment, accordingly, provides a method and apparatus for dynamically connecting an SUT to and disconnecting an SUT from a private VLAN in a computer manufacturing environment. To this end, dynamically connecting a system under test (“SUT”) to, and disconnecting the SUT from a virtual local area network (“VLAN”) using a VLAN-capable switch connected to the SUT includes the SUT executing a DVLAN command. Responsive to the execution of the DVLAN command, a switch file is updated. The updated switch file is promoted to the VLAN-capable switch. The SUT is rebooted. A MAC address of the SUT is checked against the switch file to determine whether the updated switch file contains a MAC address-to-VLAN correlation entry for the SUT. Responsive to a determination that the updated switch file does contain a MAC address-to-VLAN correlation (“MAC-VLAN”) entry for the SUT, the SUT is connected to a VLAN indicated in the MAC-VLAN entry, and responsive to a determination that the updated switch file does not contain a MAC-VLAN entry for the SUT, the SUT is connected to a default VLAN for the VLAN-capable switch.
A principal advantage of this embodiment is that it provides a method for dynamically, rather than statically, connecting an SUT to a private VLAN in a computer manufacturing environment, thereby reducing the amount of operator intervention needed to perform custom configuration of SUTs.
Another advantage of this embodiment is that the connection of the SUT to a private VLAN can be automated, further reducing the amount of operator intervention needed to perform custom configuration of SUTs.
Another advantage of this embodiment is that it can be used to provide an “out-of-the-box” network solution for customers, in that all network components (clients and servers) can be easily configured on a separate DVLAN.
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author unknown, Chapter 4: Configuring Dynamic VLAN Membership, Cisco IOS Desktop Switching Enterprise Edition Softwar Configuration Guide, CISCO Systems, May 1999, pp. 4-1 thur 4-16.
Amberg Richard
Baker Eugene
Potter Dwayne R.
Wiedeman Dennis M.
Dell USA L.P.
Haynes and Boone LLP
Winder Patrice
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