JP2009211640A - Network boot method using radio lan, and network boot terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To attain a network boot by a radio LAN. <P>SOLUTION: A hypervisor 33 is started to internally configure a virtualized hub 32 on the hypervisor 33, and respective virtual machines 34a, 34b and a radio LAN adapter 31 are connected to the virtualized hub 32 to establish connection between the radio LAN adapter 31 and a radio LAN access point 20 by radio LAN connection information. The virtual machine 34a is started to access a network boot server 10 via an established radio LAN network, and network boot start OS data 12 is acquired from the network server 10 to perform the network boot. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a network boot method.

  Network boot is generally executed using a BIOS (Basic Input Output System) function called PXE (Preboot Execution Environment). PXE is used not only for network boot but also for remote OS installation.

  Conventionally, when performing a network boot, connection at the network layer (third layer) level is required when the BIOS operates before starting an OS (Operating System). That is, it is necessary to be able to acquire IP from DHCP (Dynamic Host Configuration Protocol).

  Patent Document 1 describes a method of booting a server connected to a server using an OS stored in the server.

At present, there is no means (product) for establishing a connection of the above level in a wireless LAN (Local Area Network) during BIOS operation. As a cause, in the case of a wireless LAN, authentication processing or the like is required before connection, so that the program size for operation becomes large and the BIOS cannot survive. For this reason, it has been difficult to perform a network boot using a wireless LAN.
Japanese Patent Laid-Open No. 2001-356913

  An object of the present invention is to provide a network boot method using a wireless LAN and a network boot terminal that enable network boot using a wireless LAN.

  In the network boot method of the present invention, a connection with a network boot server via a wireless LAN is regarded as a wired LAN using a virtualization hub and a virtual machine on the hypervisor, and the virtual machine passes through a wireless LAN network. The network boot server is accessed to acquire network boot start OS data and perform network boot.

  The network boot terminal of the present invention includes a wireless LAN adapter, a first virtual machine that performs network boot, a hypervisor that is an OS for creating the first virtual machine on a computer, a hypervisor, and a wireless A setting console OS that manages the LAN adapter; and a second virtual machine that starts the setting console OS. When the network boot terminal is activated, the hypervisor is activated, a virtualization hub is internally configured on the hypervisor, and each virtual machine and the wireless LAN adapter are connected to the virtualization hub. The connection between the wireless LAN adapter and the wireless LAN access point is established based on the wireless LAN connection information. The first virtual machine is activated, accesses the network boot server via the established wireless LAN network, acquires network boot activation OS data from the network boot server, and performs network boot.

  The present invention has an effect of improving mobility at a terminal that performs network boot. In the conventional network boot method, since it is essential to be connected, it is difficult to carry the terminal.

  Next, embodiments of the present invention will be described with reference to the drawings.

  As shown in FIG. 1, the network boot server 10 is connected to the network 40, and the network boot terminal 30 is connected to the network 40 via the wireless LAN access point 20.

  The network boot server 10 includes a network boot server function unit 11 and network boot start OS data 12. The boot OS data 12 for network boot includes general OS data and modules necessary for network boot. The network boot server function unit 11 is a network boot server function unit that performs a network boot on a wired LAN network by a conventional method. That is, using the PXE function, an execution file for network booting is sent to the client terminal, and the client terminal is started with the OS data held in the network boot server 10.

  As illustrated in FIG. 2, the network boot terminal 30 includes a CPU 37, a memory 38, a wireless LAN adapter 31, and a disk device 39, similar to a general PC. The disk device 39 stores a hypervisor 33, setting console OS activation data 35, and wireless LAN connection information 36. The network boot terminal 30 is connected to the wireless LAN access point 20 of the network 40 by a wireless LAN adapter 31. When booted, the network boot terminal 30 is an OS (hypervisor) 33 capable of operating a network boot virtual machine 34a, which is a virtual computer environment running on the computer, from the disk device 39 to the terminal 30. Works. The virtualization hub 32 is automatically configured when the hypervisor 33 is started, and functions as a virtual hub that connects the virtual machine 34 that starts the setting console OS 35, the virtual machine 34 that performs network booting, and the wireless LAN adapter 31. . By operating from the setting console OS 35, the hypervisor 33 and the wireless LAN adapter 31 can be managed. Here, the management of the hypervisor 33 is the power operation (startup / shutdown) of the virtual machine 34a and the adjustment of resources allocated to the virtual machine 34a (how much the memory 38 attached to the terminal is actually used as the memory of the virtual machine 34a). Or the like). Management of the wireless LAN adapter 31 is setting management (access point information, WEP key information, etc.) for actually connecting to the wireless LAN access point 20. The setting console OS 35 is started by the virtual machine 34b and has only a minimum function for setting. The network boot server 10 may be of any method as long as it can perform network boot in a normal wired LAN environment. The network boot server 10 and the wireless LAN access point 20 need to be connected by a network 40.

  When the network boot terminal 30 is activated, first, the hypervisor 33 and the setting console OS 35 operate. The wireless LAN adapter 31 receives connection information 36 from the setting console OS 35 and connects to the wireless LAN access point 20. Here, communication from the virtualization hub 32 to the network boot server 10 is established. Further, the network boot data function unit on the network boot server 10 is set by performing the setting with the setting capable of network booting the virtual machine 34a on the hypervisor 33, that is, the setting for starting with PXE in the BIOS of the virtual machine 34a 11, the boot OS data 12 for network boot is acquired, and the virtual machine 34a can be started with an arbitrary OS.

FIG. 3 shows a flowchart of the operation up to the net boot.
First, when the network boot terminal 30 is activated (step 101), the hypervisor 33 is activated (step 102). A virtualization hub 32 is internally configured on the hypervisor 33, and the virtual machines 34 a and 34 b and the wireless LAN adapter 31 are connected to the virtualization hub 32. Subsequently, the setting console OS 35 is activated by the virtual machine 34b (step 103). The setting console OS 35 has functions for performing various settings of the hypervisor 33 and setting of the wireless LAN. The user can set the wireless LAN from the setting console OS 35 (step 104). The contents set here are stored in the disk device 39 as wireless LAN setting information 36 (step 105). When the setting is not performed, when the setting is completed, the set wireless LAN setting information 36 is read from the disk device 39, and the wireless LAN adapter 31 is connected using the read information (step 106). A connection is established between the wireless LAN adapter 31 built in the terminal 30 and the wireless LAN access point 20 connected to the server 10. When the connection is normally completed, the virtual machine 34a for actually performing the net boot is started (step 107). The activated virtual machine 34a accesses the network boot server 10 via the established wireless LAN network and performs network boot (step 108). When changing the connection by wireless LAN during network boot, the user can switch to the virtual machine 34b in which the setting console OS 35 is activated again, and the user can change the connection setting. When the virtual machine 34a is shut down (step 109) and the use of the network boot is finished, the terminal 30 can be shut down (step 110).

  By storing the disk device 39 for storing the hypervisor 33 or the like in a removable memory such as a USB memory instead of an internal disk, it is easy to use by switching the system to be used so that a network boot is performed only when the USB memory is inserted. Become. Further, by making the disk a read-only disk device, it can be used as a thin client that does not have data on the disk.

  The present invention can be used as a thin client used for ensuring security.

It is a figure which shows the structure of the system containing the network boot terminal of one Embodiment of this invention. It is a figure which shows the structure of the terminal for network boots. It is a figure which shows operation | movement of the terminal for network boots.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Network boot server 11 Network boot server part 12 Network boot start-up OS data 20 Wireless LAN access point 30 Network boot terminal 31 Wireless LAN adapter 32 Virtualization hub 33 Hypervisor 34a Virtual machine (for network boot)
34b Virtual machine (for starting console OS for setting)
35 Console OS for setting
36 Wireless LAN connection information 37 CPU
38 memory 39 disk device 40 network 101-109 steps

Claims (4)

  The connection to the network boot server via wireless LAN is regarded as a wired LAN using the virtualization hub and virtual machine on the hypervisor, and the virtual machine accesses the network boot server via the wireless LAN network. A network boot method using a wireless LAN that acquires boot OS data for network boot and performs network boot. A network boot terminal,
A wireless LAN adapter,
A first virtual machine performing a network boot;
A hypervisor that is an OS for creating the first virtual machine on a computer;
A console OS for setting to manage the hypervisor and the wireless LAN adapter;
A second virtual machine for starting the setting console OS;
Have
When the terminal is activated, the hypervisor is activated, a virtualization hub is internally configured on the hypervisor, the virtual machines and the wireless LAN adapter are connected to the virtualization hub, and wireless The connection between the wireless LAN adapter and the wireless LAN access point is established based on the LAN connection information, the first virtual machine is started, the network boot server is accessed via the established wireless LAN network, and the network A network boot terminal that performs network boot by acquiring network boot startup OS data from a boot server.   The network boot terminal according to claim 2, wherein the memory storing the hypervisor is a removable memory.   The network boot terminal according to claim 2, wherein the memory storing the hypervisor is a read-only memory.

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