KR101239290B1 - A system and method for setting virtual machines in a virtual server supporting zero clients - Google Patents

Abstract

PURPOSE: A system and a method for setting a virtual machine of a virtualization server are provided to offer user convenience by setting the VM(Virtual Machine) of a virtualization server based on an OS of a specific zero client. CONSTITUTION: A virtualization server provides a management function of VMs by inputting zero client information; allocating a specific VM to a zero client; and including a virtual PC(Personal Computer), a host driver, and a virtualization unit. The zero client includes a VM terminal(1000) for connecting to the VM including a memory which records the identifier of the zero client. The VM terminal comprises an USB(Universal Serial Bus) upstream unit(1100) including an USB upstream port connecting to the virtualization server; an USB downstream unit(1300) including an USB downstream port connected to USB apparatuses; and an USB hub unit(1200) which connects the upstream unit and the downstream unit. [Reference numerals] (1000) Virtual machine terminal; (1100) USB upstream port; (1200) USB hub unit; (1300) USB downstream unit; (1310) USB-based virtual machine control unit; (1320) USB type audio unit; (1400) Control event unit; (AA) USB downstream port #1; (BB) USB downstream port #N

Description

System and method for setting virtual machines in a virtual server supporting zero clients}

The present invention relates to a system and method for setting up a virtual machine of a virtual server supporting zero clients. More particularly, the present invention relates to a base of a server when the OS environment of the server and the OS of the virtual machine are different. Virtual machine of virtualization server that supports zero client which enables various settings for control, activation and MAC distribution related to the virtual machine of the server based on the OS of the virtual machine (i.e. the client), not based on the OS being A system and method for setting up are provided.

In particular, it can optionally use either an emulation mode that emulates a set of shareable host interfaces to create a set of virtual host interfaces, and a direct connection mode that associates a set of directly assignable host interfaces with zero clients. By providing a virtual machine's host interface, a zero-client OS can be used to create high-end applications such as 3-D gaming, high-quality video, high-quality audio, and 3D graphics without requiring knowledge of the server's operating system. A system and method for setting up a virtual machine of a virtualization server that supports a serviceable zero client.

In order to provide a unique physical host interface to multiple virtual machines in a server virtualization environment, a method of creating a virtual host interface having a 1: N relationship with a physical host interface is called an emulation mode. Here, an operating system (OS) mounted in a virtual machine operates by recognizing a virtual host interface set generated by virtualization software as its host interface. Such virtualization technologies include Citrix's XenServer, Microsoft's hyper-v, VMware's ESXi and Oracle's Oracle. Virtual Box and GNU Open License-based QEMU.

However, a host interface that performs a large amount of data copy such as a VGA, a USB device, or a sound device, or a host interface requiring a dedicated processor capability of the device, greatly increases the load of the processor when the device is processed in an emulation manner, The performance of the application can not be guaranteed. Therefore, it is not possible to smoothly service high-end applications (3D games, HD video) performed using these host interfaces. Processor technologies such as Intel's VT-d and AMD's IOMMU are devices that directly assign a 1: 1 host interface to a virtual machine. This is called. Thus, by using this device, some host interface devices can be directly connected to the virtual machine, enabling high-end applications to be seamlessly serviced in the virtual machine.

For virtual desktop service in server virtualization environment, I / O signal of virtual machine should be able to be represented and controlled by remote client. Conventional virtual machine input and output signal processing techniques include Microsoft's RDP, Citrix's HDX, Teradici's PC over Internet Protocol (PCoIP), and Vmware's View. ). These digital inputs and outputs of the virtual desktop are transmitted through the network protocol between the virtual machine and the client. Here, the client is equipped with a processor to process the input and output network packets of the virtual machine, and to represent the desktop of the virtual machine through its host interface device. In other words, the client is in the form of a computer including a processor, a host interface, an input / output device, and an OS.

In the conventional virtualization environment, a method for remote virtual desktop service needs to express and control digital I / O signals of a virtual machine through a network protocol in a client. For this purpose, a client device must include a processor, a host interface, and an I / O device. Therefore, the manufacturing cost of the client increases, and there is a problem in that a processor load and processing time for generating a network packet or extracting an input / output signal from the network packet by attaching an input / output signal of the virtual machine are generated.

In order to solve this problem, emulation mode and directly assignable host interface are composed of zero clients that have only I / O devices on the client side without a separate processor, and emulate a set of shareable host interfaces. Zero to service high-end applications such as 3D games, high-definition video, high-quality audio, and 3D graphics operations by providing a virtual machine's host interface, optionally using one of the direct connection modes that associates the fleet with zero clients. It was developed in the system that configures the virtual machine setting of the virtual server supporting the client, but in the direct connection mode, one-to-one matching a specific zero client to one virtual machine.

However, in the case of a virtualization system supporting such a zero client, when the OS environment of the server (for example, Linux based environment) and the virtual machine (ie client) OS environment (for example, Windows-based environment) are different. However, based on the OS (Linux), which is the server base, various settings such as IP allocation of the virtual machine should be pre-configured, but a client user familiar with the Windows environment configures the server under the Linux-based OS environment. It's not easy to do this, and this is causing a hesitation in building a zero client environment.

Republic of Korea Patent Publication No. 2012-0008474 (Patent Application No. 2011-0070748)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a system and method for enabling a virtual machine setting of a virtualization server supporting a zero client based on a specific zero client OS without using a server OS. It is to.

Specific methods to achieve this purpose include power on / off, reset of virtual machines on zero clients, activation of zero clients, and MAC of virtual network interface cards (NICs) on zero clients in virtualized server environments that support zero clients. It aims to provide a USB-based dedicated device, system and method for the distribution of (Media Address Control).

A system for setting up a virtual machine of a virtualization server supporting a zero client according to the first aspect of the present invention for achieving the above object is a system for setting up a virtual machine of a virtualization server supporting a zero client, wherein the zero client And a virtualization server 10 supporting one or more zero clients 400 connected to the virtualization server 10, wherein the virtualization server 10 includes one or more virtual PCs 100 and a host driver 800. ) And the virtualization unit 130, assigning a specific virtual machine to the zero client 400 and providing a setting and management function of the virtual machines by inputting information from the zero client, and the zero client 400 And a memory having a unique identifier of its zero client recorded therein, and the virtual machine server for connection with the virtual machine 120. By including the terminal 1000, the virtualization server 10, by inputting information including a unique identifier from the virtual machine terminal 1000, the zero client 400 without the user's separate operation on the server It is possible to set the virtual machines by inputting information at the side.

Preferably, the virtual PC 100 constitutes a virtual machine 120 that is connected to a zero client 400, which has emulated hardware 121 and direct access hardware 122. It is characterized by.

Also preferably, the host driver 800 may include a virtual machine device control driver 810 so that the virtual machine device control driver 810 may input information from the zero client 400 to the virtualizer 130. It provides a setting and management function of the virtual machines by.

More preferably, the virtual machine device control driver 810, the virtual machine MAC address management unit 811 for the virtual machine MAC distribution, the virtual machine control signal receiving unit 812 for the virtual machine control, virtual machine activation activation Interface for security key encryption unit 813, security key storage 814, security key verification unit 815, USB-based virtual machine control unit 1310 and USB interface 816 and virtual machine management unit 131 Characterized in that consisting of a virtualization interface 817 for.

Also, preferably, the virtual machine manager 131 of the virtualization unit 130 may be based on the USB of the virtual machine terminal 1000 of the client 400 through the virtual machine device control driver 810 of the host driver 800. In communication with the virtual machine control unit 1310.

Also preferably, the virtual machine terminal 1000 may include a USB upstream unit 1100 having a USB upstream port connected to the virtualization server 10, and a plurality of USB devices connected to N USB devices. A USB downstream unit 1300 having a downstream port 1330 and a USB hub unit 1200 connecting them, and the USB downstream unit 1300 includes a plurality of USB downstream units 1300. In addition to the USB downstream port 1330, the USB type audio unit 1320 and the USB-based virtual machine controller 1310 may be configured.

More preferably, the USB-based virtual machine control unit 1310 has a unique MAC address for each virtual machine terminal, so that it is used for MAC address distribution of a virtual machine using the virtual NIC 121a ( 1311, the virtual machine control event processor 1312 for processing the virtual machine control event received from the control event unit 1400 and forwarding the virtual machine control event to the virtual machine device control driver 810, and to activate the virtual machine terminal. A security key encryption unit 1313 and a security key storage 1314 are used.

Most preferably, the control event unit 1400 is a portion for providing an electrical signal for controlling the virtual machine to the USB-based virtual machine control unit 1310, power 'on' (1402), power 'off' (1403). ), And generates an event such as 'reset' 1404, and stores the current device state in the event state machine 1401.

Also preferably, the virtualization unit 130 includes a virtual machine management unit 131, the virtual machine management unit 131, a virtualization engine (virtual machine engine) 131e that manages the creation and operation of the virtual machine And a virtual machine device control driver interface 131f for connection with the lower virtual machine device control driver 810 and a device access mode switch unit 750 to receive a current device connection method, and a direct allocation connection mode 750a. , 750b, the device access mode manager 131a which serves to connect the virtual machine controller 1310 and the virtual machine device control driver 810, and the state received by the lower virtual machine device control driver 810. The operation of the virtual machine according to the activation status received from the virtual machine state control unit 131b and the lower virtual machine device control driver 810, which controls the virtual machine according to the control event. And activation control unit (131c) that serves for determining portions, characterized by comprising a virtual machine configuration portion (131d).

Meanwhile, a method for setting a virtual machine of a virtualization server that supports a zero client according to a second aspect of the present invention for achieving the object of the present invention, supports zero client, at least one virtual PC 100, host The virtualization server 10 including the driver 800 and the virtualization unit 130, which allocates a specific virtual machine to the zero client 400 and provides a setting and management function of the virtual machines by inputting information from the zero client. And at least one zero client including a memory in which a unique identifier of its own zero client connected to the virtualization server 10 is recorded and including a virtual machine terminal 1000 for connection with the virtual machine 120. Support zero clients in a system for virtual machine configuration of a virtualization server that supports zero clients, including (B-1) The virtual machine controller 1310 records a unique MAC for its zero client in the MAC storage 1311 (S210) and (B-2). The MAC address management unit 811 requests and obtains the MAC of the MAC storage 1311 through the USB interface 816 (S220), and (B-3) the virtual machine configuration unit 131d virtually before creating the virtual machine. The virtual machine MAC address management unit 811 requests the MAC of the virtual machine through the virtual machine device control driver interface 131f (S230), and (B-4), the virtual machine component 131d uses the collected MAC. By setting the MAC of the virtual NIC (121a) of the virtualization engine (131e) (S240), it is characterized in that to set the virtual machine MAC.

On the other hand, a method for setting up a virtual machine of a virtualization server supporting a zero client according to a third aspect of the present invention for achieving the object of the present invention, supports zero client, at least one virtual PC (100), The virtualization server 10 including the host driver 800 and the virtualization unit 130, which allocates a specific virtual machine to the zero client 400 and provides a setting and management function of the virtual machines by inputting information from the zero client. And one or more zero clients including a virtual machine terminal 1000 for connection with the virtual machine 120, including a memory in which a unique identifier of its own zero client connected to the virtualization server 10 is recorded. Zero clients in the system for virtual machine configuration of a virtualization server that supports zero clients, including (400). As a method for setting a virtual machine of a desired virtualization server, (C-1) when the virtual machine manager 131 is installed in the system, the security key verification unit 815 is connected to the virtual machine manager 131 through the USB interface 816. (S310), the virtual machine device control driver 810 encrypts the security key of the security key storage 814 using the security key encryption unit 813 (S320), (C-3) The virtual machine controller 1310 verifies the security key by encrypting the security key stored in the security key storage 1314 using the security key encryption unit 1313 according to the request in the step (C-1). Transferring to the unit 815 (S330), (C-4) security key verification unit 815 is the encryption key generated in the step (C-2) and the virtual machine control unit 1310 in the step (C-3) In step S340, the activation control unit 131c determines the authenticity by comparing the encryption key received from the (S-5). The authenticity information of the security key authentication unit 815 is collected through the interface 131f. If not, the virtualization engine 131e is deactivated (S310) to activate the virtualization platform. It is done.

Preferably, (A-1) the control event unit 1400 generates signals of power 'on' 1402, power 'off' 1403, and 'reset' 1404 (S110), and (A−). 2) In the event state machine 1401 of the control event unit 1400, the state of the current virtual machine is stored (S120), and (A-3), the virtual machine control event processing unit 1312 returns to the event state machine 1401. Receive the virtual machine control event from (S130), (A-4) the virtual machine control event processing unit 1312 transmits the received control event to the virtual machine control signal receiving unit 812 through the USB interface 816 ( S140, (A-5) collect the virtual machine control event received from the virtual machine control signal receiving unit 812 in the virtual machine state control unit 131b of the virtual machine management unit 131 (S150), (A-6) The virtual machine state control unit 131b checks the collected event and transmits a command to the virtualization engine 131e to control the state of the virtual machine (S160). It characterized by processing the machine control signal.

Also preferably, the device access mode manager receives an event for a state in the device connection method from the (D-1) device access mode switch unit 750 (S410), and (D-2) the device connection method may be any The method is checked (S420), and (D-3), if it is determined in the step (D-2) that the shared connection mode (740b) is returned to the step (D-1), and (D-4) As a result of the determination in the step (D-2), if the direct allocation connection mode 740b, the virtual machine controller 1310 and the virtual machine device control driver 810 are connected (S421).

According to the system and method for setting a virtual machine of a virtual server supporting a zero client according to the present invention, it is possible to set a virtual machine of a virtual server supporting a zero client based on the OS of a specific zero client without using a server OS. Therefore, it is possible to provide a variety of convenience to the user.

Furthermore, the host interface of the virtual machine is optionally provided using either an emulation mode that emulates a set of shareable host interfaces to create a set of virtual host interfaces, and a direct connection mode that associates a set of directly assignable host interfaces with zero clients. If so, it can provide a system and method for setting up a virtual machine of a virtualization server that supports zero clients capable of serving high-end applications such as 3D games, high quality video, high quality audio, and 3D graphics operations.

In addition, the system and method for setting a virtual machine of a virtualization server supporting a zero client according to another aspect of the present invention can provide a zero client that can operate without a separate processor, host interface, operating system, system construction cost Can be greatly reduced.

Other objects and advantages of the present invention in addition to the above objects and effects will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

1A is a schematic diagram generally showing a virtual machine system related to the present invention.
1B is a detailed diagram of an overall system for virtual machine configuration of a virtualization server supporting zero clients in accordance with an aspect of the present invention.
FIG. 2 illustrates only a portion of the directly assignable device access mode of FIG. 1B;
3 is a block diagram of the virtual machine terminal 1000 of FIG.
4 is a detailed block diagram of the USB-based virtual machine control unit 1310 of FIG.
FIG. 5 is a detailed block diagram of the control event unit 1400 of FIG. 3.
FIG. 6 is a detailed block diagram of the virtual machine control device driver 810 of FIG. 2.
FIG. 7 is a detailed block diagram of the virtual machine manager 131 of FIG. 2.
8 is a flowchart illustrating a virtual machine control signal processing procedure in a method for setting up a virtual machine of a virtualization server supporting a zero client according to another aspect of the present invention.
9 is a flowchart illustrating a virtual machine MAC setting procedure in a method for setting a virtual machine of a virtualization server supporting zero clients according to another aspect of the present invention.
10 is a flowchart illustrating an activation sequence in a virtualization platform of a method for setting up a virtual machine of a virtualization server supporting zero clients according to another aspect of the present invention.
FIG. 11 is a flowchart illustrating an operation sequence of a device access mode management unit in a method for setting a virtual machine of a virtualization server supporting a zero client according to another aspect of the present invention. FIG.

Hereinafter, a system for setting a virtual machine of a virtual server supporting a zero client according to the present invention will be described with reference to FIGS. 1A to 7, and then setting up a virtual machine of a virtual server supporting a zero client according to the present invention. A control method of the system will be described with reference to FIGS. 8 to 11.

FIG. 1A is a schematic diagram of a virtual machine system according to the present invention as a whole, and FIG. 1B is a detailed diagram of a system for setting up a virtual machine of a virtualization server supporting a zero client according to an aspect of the present invention. FIG. 1 illustrates only the directly assignable device access mode portion of FIG. 1.

3 is a block diagram of the virtual machine terminal 1000 of FIGS. 1B and 2, FIG. 4 is a detailed block diagram of the USB-based virtual machine controller 1310 of FIG. 3, and FIG. 5 is a control event unit of FIG. 1400 is a detailed block diagram of FIG. 6, and FIG. 6 is a detailed block diagram of the virtual machine control device driver 810 of FIG. 2, and FIG. 7 is a detailed block diagram of the virtual machine manager 131 of FIG. 2.

8 is a flowchart illustrating a virtual machine control signal processing procedure in a method for configuring a virtual machine of a virtual server supporting zero clients according to another aspect of the present invention, FIG. 9 is a flowchart illustrating a virtual machine MAC configuration procedure, 10 is a flowchart illustrating an activation sequence in a virtualization platform, and FIG. 11 is a flowchart illustrating an operation sequence of a device access mode manager.

Now, a system for configuring a virtual machine of a virtualization server supporting a zero client according to an aspect of the present invention will be described with reference to FIGS. 1A to 7.

First, as illustrated in FIGS. 1A and 1B, the virtual machine management server (host) 1 may include one or more virtualization servers 10 and a virtual machine management master server 20 for managing them.

The virtualization server 10 may be connected with one or more zero clients 400 to support the zero clients 400.

The zero client 400 refers to a client composed only of input / output devices such as a monitor 410, a keyboard 420, a mouse 430, an audio 440, and a USB storage device 450, and includes a processor and a host interface. Because it does not, it can be configured at a low cost, excellent security, low processing load and fast processing time.

In particular, the zero client 400 in the present invention includes a unique identifier of the zero client and a virtual machine terminal 1000 for connecting to the virtual machine 120 is added.

The virtualization server 10 supporting the zero client according to the exemplary embodiment of FIG. 1B may include a host driver 800 and a virtualization unit 130. The configuration of the virtualization server shown in FIG. 2 is in accordance with one embodiment, and the blocks shown in FIG. 2 are not all required components, and in other embodiments, some blocks may be added, changed, or deleted.

The virtualization server 10 includes in particular one or more virtual PCs 100, the virtual PCs 100 constituting a virtual machine 120 connected with a zero client 400, which in turn emulates the virtual machine 120. Hardware 121 and direct access hardware 122. In addition, the virtual PC 100 includes a virtual machine OS 110 having a hardware interface driver 111.

The host driver 800 further includes the virtual machine device control driver 810 of FIG. 2, whereby the virtual machine device control driver 810 virtualizes the virtual machine 130 by inputting information from the zero client 400. Provides configuration and management of the machines.

To this end, the virtual machine device control driver 810 communicates with the virtualization unit 130 to serve as an allocation host interface management of the virtual machine 120, and executes commands of the virtual machine management master server engine of the virtual machine management master server. It works.

The virtual machine device control driver 810 transmits a virtual machine setting command set including a command for creating, removing, stopping, and resuming the virtual machine 120 to the virtual machine manager 131 of the virtualization unit 130 to perform virtualization. Machine 120 may be set up.

The virtualization unit 130 receives a virtual machine setting request from a user via a virtual machine management master server, and provides a host interface of the virtual machine 120 by selectively using any one of an emulation mode and a direct connection mode. The virtualization unit 130 may be in the form of software or kernel for operating one or more virtual machines 120 (or the virtual PC 100).

The virtualization unit 130 emulates the sharable host interface set 141 in the host interface layer 140 to generate a virtual host interface set that can be shared by the various virtual machines 120, and the virtual machine 120 of the virtual machine 120 This can be provided by emulated hardware 121. This method is called emulation mode 740b.

In one embodiment, the host interface available in the emulation mode 740b may include a processor 141a, a main memory 141b, a secondary memory 141c, a network device such as a network interface card (NIC), graphics processing. Devices, USB host controllers, and sound devices.

However, a host interface that performs a large data copy such as a graphics processing unit 142a, a USB device 142b, a sound device, or requires a dedicated processor capability of the device may process the device in emulation mode 740b. As the load of the system is excessively increased and the performance of the application performed using the same cannot be guaranteed, the set of directly assignable host interfaces to the directly assignable access hardware (direct access hardware) 122 of the specific virtual machine 120 ( The problem can be solved by assigning 142 to 1: 1, which is called a direct connection mode 750b.

In order to support the zero client 400 provided by the present invention, the virtualization unit 120 uses the direct access connection mode 750b by the device access mode switch unit 750 of the host OS 700 to directly access hardware. The input / output signal of the directly assignable host interface set 142 from the 122 is connected to the zero client 400. The connection of the directly assignable host interface set 142 and the zero client 400 will be described in detail later with reference to FIG. 2.

The virtual machine management master server supporting the zero client according to an embodiment of the present invention collects virtual machine-related host interface resource information to create a virtual server group resource pool, and corresponds to a zero client 400 in response to the virtual server group resource pool. Generate a virtual machine configuration command set for operating the virtual machine configuration command set, and transmit the generated virtual machine configuration command set to the virtualization server 10.

2 is a diagram illustrating a structure in which a virtualization server 10 supporting a zero client and a zero client 400 are connected according to an embodiment of the present invention.

Referring to FIG. 2, in one embodiment, the sharable host interface set 141 includes a processor 141a, a main memory 141b, a secondary memory 141c, a network device 141d, a graphics processing device, and a USB host. One or more of a controller and a sound device may be included, and the upper virtualization unit 130 may emulate these devices to generate a set of virtual host interfaces so that the various virtual machines 120 may use them.

In one embodiment, a portion of the sharable host interface set 141 may be divided into a directly assignable host interface set 142 to provide a zero client 400, and the specific virtual machine 120 may be assigned to the direct allocated connection mode 750b. Can be assigned to In one embodiment, the directly assignable host interface set 142 for providing zero client 400 includes one or more of a graphics processing card 142a, a USB host controller 142b, a network device 142c, and a sound device. can do. The configuration shown in FIG. 1B is presented only as an embodiment, and may include a host interface of an input / output device such as a tablet or a printer in addition to the above embodiment.

In one embodiment, the zero client 400 is a monitor 410, a virtual machine terminal 1000 that functions as a kind of USB hub, a USB keyboard 420, a USB mouse 430, a USB audio 440, and a USB storage device. One or more of 450. The configuration of the zero client 400 shown in FIG. 1B is merely presented as an embodiment, and may include an output device such as a tablet, a printer, a network device, etc. in addition to the above embodiments.

The I / O devices constituting the zero client 400 are physically connected to the host interface set 142 directly assignable to the host interface layer 140 of the virtualization server 10 through a client I / O transport layer such as the host driver 800. do. In one embodiment, the signal delivered to the client input / output transport layer is a high-definition multimedia interface (HDMI) signal, a digital visual interface (DVI) signal, a video output device signal such as an analog signal, a USB signal, and an optical signal. It may include one or more of.

That is, as shown in FIG. 2, the virtual machine manager 131 of the virtualization unit 130 controls the virtual machine terminal 1000 of the client 400 through the virtual machine device control driver 810 of the host driver 800. Communicate with the USB-based virtual machine controller 1310. At this time, the communication protocol is based on the USB host controller 142b of the host interface 140.

That is, according to FIG. 1B, a path 750a connected to the driver 800 of the host OS (that is, Linux) and a path connected to the driver of the virtual machine are directly connected to the device access mode switch unit 750 of the directly assignable device. (750b) optionally exchanged.

In addition, as shown in FIG. 2, the virtual machine terminal 1000 preferably includes a USB-based virtual machine control unit 1310, through which the path 750a of the direct allocation connection mode is obtained. Is achieved.

3, the virtual machine terminal 1000 of FIGS. 1B and 2 will be described in detail.

3 is a structure of a virtual machine terminal, which includes a USB upstream unit 1100 having a USB upstream port connected to a host PC, and a plurality of USB downstream ports connected to N USB devices ( And a USB downstream unit 1300 having a 1330 and a USB hub unit 1200 to connect the USB downstream unit 1300. The USB downstream unit 1300 may further include the plurality of USB downstream ports (Downstream port) ( In addition to the 1330, a USB type audio unit 1320 and a USB-based virtual machine control unit 1310, which is the core of the present invention.

The USB-based virtual machine controller 1310 is connected to the control event unit 1400 by an electrical signal.

4 is a detailed block diagram of the USB-based virtual machine control unit 1310 of FIG. 3. Referring to FIG. 4, the USB-based virtual machine control unit 1310 will be described in detail with reference to FIG. 4. A control event processor 1312, a security key encryption unit 1313, and a security key storage 1314 are configured.

The virtual machine control event processor 1312 processes the virtual machine control event received from the control event unit 1400 and transmits the virtual machine control event to the virtual machine device control driver 810.

The repository 1311 has a unique MAC address for each virtual machine terminal, which allows it to be used for MAC address distribution of a virtual machine using a virtual NIC (121a in FIG. 2).

The security key encryption unit 1313 and the security key storage 1314 are used for activation of the virtual machine terminal, and are linked with the upper virtual machine device control driver (810 of FIG. 2).

Details of these operations will be described later with reference to the flowcharts of FIGS. 8 to 11 to be described later.

5 is a detailed block diagram of the control event unit 1400 of FIG. 3, wherein the control event unit 1400 provides an electrical signal for controlling the virtual machine to the USB-based virtual machine control unit 1310. Generate events such as power 'on' 1402, power 'off' 1403, 'reset' 1404, and the like, and store the current device state in event state machine 1401. Examples of input of an event may include a button, a switch, and the like.

6 is a detailed block diagram of the virtual machine control device driver 810 of FIG. 2. Detailed structure diagram of the virtual machine device control driver 810 for controlling the virtual machine device.

The virtual machine controller driving unit 810 may include a virtual machine MAC address management unit 811 for virtual machine MAC distribution, a virtual machine control signal receiver 812 for virtual machine control, and a security key encryption unit for virtual machine activation. 813, a security key storage 814, a security key verification unit 815, a USB interface 816 and a virtual machine manager (131 of FIG. 2) for interfacing with a USB-based virtual machine controller (1310 of FIG. 2). It consists of a virtualization interface 817 for the interface.

On the other hand, FIG. 7 is a detailed block diagram of the virtual machine manager 131 of FIG. 2.

As shown in FIG. 7, the virtual machine manager 131 is a virtual machine device control driver interface for connecting to a virtualization engine 131e that manages creation and operation of a virtual machine and a lower virtual machine device control driver 810. 131f, a device access mode management unit 131a, a virtual machine state control unit 131b, a genuine product activation control unit 131c, and a virtual machine configuration unit 131d.

The device access mode management unit 131a receives a connection method of the current device from the device access mode switch unit 750 of FIG. 1B, and when the direct access connection modes 750a and 750b are included, the device access mode management unit 131a and the virtual machine control unit 1310. It serves to connect the machine device control driver 810. This will be described later with reference to FIG. 11.

The virtual machine state controller 131b controls the virtual machine according to the state control event received by the lower virtual machine device control driver 810 of FIG. 2. This will be described later with reference to FIG. 8.

The activation control unit 131c plays a role of determining whether the virtual machine is operated according to whether the activation of the activation received from the lower virtual machine device control driver 810 is performed. This will be described later with reference to FIG. 10.

The virtual machine configuration unit 131d plays a role of setting the virtual machine in accordance with the MAC distribution received by the virtual machine device control driver 810. This will be described later with reference to FIG. 9.

8 to 11, a method for setting up a virtual machine of a virtualization server supporting a zero client according to the present invention will be described.

8 is a flowchart illustrating a process of processing a virtual machine control signal in a method for configuring a virtual machine of a virtualization server supporting a zero client according to another aspect of the present invention.

First, in step S110, the control event unit 1400 generates a signal of power 'on' 1402, power 'off' 1403, and 'reset' 1404.

Next, in step S120, the event state machine 1401 of the control event unit 1400 stores the state of the current virtual machine,

In operation S130, the virtual machine control event processor 1312 receives a virtual machine control event from the event state machine 1401.

In operation S140, the virtual machine control event processor 1312 transmits the received control event to the virtual machine control signal receiver 812 through the USB interface 816.

In operation S150, the virtual machine control event received by the virtual machine control signal receiver 812 is collected by the virtual machine state controller 131b of the virtual machine manager 131.

In operation S160, the virtual machine state controller 131b checks the collected event and transmits a command to the virtualization engine 131e to control the state of the virtual machine.

9 is a flowchart illustrating a virtual machine MAC configuration procedure in a method for configuring a virtual machine of a virtualization server supporting a zero client according to another aspect of the present invention.

First, in step S210, the virtual machine control unit 1310 records, for example, a unique MAC of 6 bytes (3 bytes of manufacturer code, 3 bytes of product code) in the MAC storage 1311,

In step S220, the MAC address management unit 811 requests and obtains the MAC of the MAC storage 1311 through the USB interface 816.

In operation S230, the virtual machine configuration unit 131d requests the MAC of the virtual machine from the virtual machine device control driver interface 131f to the virtual machine mac address management unit 811 before creating the virtual machine.

In operation S240, the virtual machine configuration unit 131d sets the MAC of the virtual NIC 121a of the virtualization engine 131e using the collected MAC.

FIG. 10 is a flowchart illustrating an activation sequence in a virtualization platform in a method for setting up a virtual machine of a virtualization server supporting a zero client according to another aspect of the present invention. Referring to FIGS. 2, 4, 6, It demonstrates with reference to FIG. 7, FIG. 10, and FIG.

First, in step S310, when the virtual machine manager 131 is installed in the system, the security key verification unit 815 requests activation to the virtual machine manager 131 through the USB interface 816,

In operation S320, the virtual machine device control driver 810 encrypts the security key of the security key storage 814 using the security key encryption unit 813.

Next, in operation S330, the virtual machine controller 1310 encrypts the security key stored in the security key storage 1314 using the security key encryption unit 1313 at the request of S310, and delivers the security key to the security key verification unit 815. ,

In operation S340, the security key verification unit 815 compares the encryption key generated in S320 with the encryption key received from the virtual machine controller 1310 in S330 to determine whether to be genuine.

In the last step S350, the activation control unit 131c collects the genuineness information of the security key authentication unit 815 through the virtual machine device control driver interface 131f, and if not, the virtualization engine 131e. Deactivate.

11 is a flowchart illustrating an operation sequence of a device access mode management unit in a method for setting a virtual machine of a virtualization server supporting a zero client according to another aspect of the present invention.

In operation S410, the device access mode switch unit 750 receives an event for a state in a device connection scheme,

In step S420, by checking whether the device connection method,

As a result of the determination at step S420, if the shared connection mode 740b is returned to step S410,

In the direct allocation connection mode 740b, the flow proceeds to step S421 to connect the virtual machine controller 1310 and the virtual machine device control driver 810.

For reference, the encryption system of the host and the virtual machine terminal in the system for setting up the virtual machine of the virtualization server supporting the zero client of the present invention describes a challenge (for example, 64-bit) that is random data on the host side. ) Data is transmitted to the virtual machine terminal 100, the host side encrypts the challenge data with, for example, a 128-bit encryption key and generates 64-bit encrypted data.

On the other hand, the terminal side also checks whether the terminal's zero client is authentic by sending the 64-bit encrypted data generated by encrypting with the same encryption key to the host side and comparing them.

Although the present invention has been described above according to an embodiment of the present invention, a person skilled in the art to which the present invention belongs has changed and modified within the scope without departing from the technical spirit of the present invention. Of course.

1: virtual machine management server (host) 10: virtualization server
20: Virtual Machine Management Master Server
100: virtual PC 110: virtual machine OS
111: hardware interface driver 120: virtual machine
121: emulated hardware 122: direct access hardware
121a: Virtual NIC (VNIC)
130: virtualization unit 131: virtual machine management unit
131a: device access mode management unit 131b: virtual machine state control unit
131c: activation control unit 131d: virtual machine configuration unit
131e: Virtualization Engine
131f: Virtual Machine Device Control Driver Interface
140: host interface 141: shareable host interface
142: directly assignable host interface
142b: USB Host Controller 142c: NIC
400: zero client
750: device access mode switch unit 740b: shared connection mode
750a: Directly Assigned Connection Mode First Pass 750b: Directly Assigned Connection Mode Second Pass
800: host driver 810: virtual machine device control driver
811: virtual machine MAC address management unit 812: virtual machine control signal receiving unit
813: security key encryption unit 814: security key storage
815: security key verification unit 816: USB interface
817: Virtualization Interface
1000: virtual machine terminal 1100: USB upstream port
1200: USB hub unit 1300: USB downstream section
1310: USB-based virtual machine controller 1311: MAC storage
1312: virtual machine control event processor 1313: security key encryption unit
1314: security key storage 1320: USB type audio section
1330: USB downstream port 1400: control event
1401: Event state machine 1402: power 'on'
1403: power 'off' 1404: reset

Claims (13)

A system for setting up a virtual machine of a virtualization server that supports zero clients.
A virtualization server 10 supporting the zero client,
Including one or more zero clients 400 connected to the virtualization server 10,
The virtualization server 10 includes one or more virtual PCs 100, a host driver 800, and a virtualization unit 130, and inputs information from the zero client while allocating a specific virtual machine to the zero client 400. Provides configuration and management of virtual machines
The zero client 400 includes a memory in which a unique identifier of its zero client is recorded and includes a virtual machine terminal 1000 for connection with the virtual machine 120.
The virtual machine terminal 1000,
A USB upstream unit 1100 having a USB upstream port connected to the virtualization server 10;
A USB downstream unit 1300 having a plurality of USB downstream ports 1330 connected to N USB devices;
By configuring the USB hub unit (1200) connecting them,
The virtual server 10 may input information including a unique identifier from the virtual machine terminal 1000, and may be virtualized by information input at the zero client 400 without a user's separate operation on the server. System for virtual machine configuration of a virtualization server supporting a zero client, characterized in that the configuration of the machines. The method of claim 1,
The virtual PC 100 configures a virtual machine 120 connected with the zero client 400,
And the virtual machine (120) has emulated hardware (121) and direct access hardware (122). The method of claim 1,
The host driver 800 includes a virtual machine device control driver 810 such that the virtual machine device control driver 810 sets the virtual machines by inputting information from the zero client 400 to the virtualizer 130. And a system for setting up a virtual machine of a virtualization server that supports a zero client, characterized by providing a management function. The method of claim 3, wherein
The virtual machine device control driver 810,
Virtual machine MAC address management unit 811 for virtual machine MAC distribution, virtual machine control signal receiver 812 for virtual machine control, security key encryption unit 813 for virtual machine activation, security key storage 814, A zero client comprising a security key verification unit 815, a USB interface 816 for interfacing with the USB-based virtual machine control unit 1310, and a virtualization interface 817 for interfacing with the virtual machine management unit 131. For setting up a virtual machine on a virtualization server that supports. The method of claim 1,
The virtual machine manager 131 of the virtualization unit 130 uses the virtual machine device control driver 810 of the host driver 800 to operate the USB-based virtual machine controller 1310 of the virtual machine terminal 1000 of the client 400. System for virtual machine configuration of a virtualization server that supports zero clients, characterized in that it communicates with the server. The method of claim 1,
The USB downstream unit 1300 includes a USB type audio unit 1320 and a USB-based virtual machine controller 1310 in addition to a plurality of USB downstream ports 1330. For setting up a virtual machine on a virtualization server that supports. The method according to claim 6,
The USB-based virtual machine control unit 1310,
MAC storage 1311 which has a unique MAC address for each virtual machine terminal, so that it is used for the distribution of MAC addresses of the virtual machines using the virtual NIC 121a,
A virtual machine control event processor 1312 for processing the virtual machine control event received from the control event unit 1400 and transferring the virtual machine control event to the virtual machine device control driver 810;
A system for setting up a virtual machine of a virtualization server supporting zero clients, comprising a security key encryption unit 1313 and a security key store 1314 used for activation of a virtual machine terminal. The method of claim 7, wherein
The control event unit 1400 is a part for providing an electrical signal for controlling the virtual machine to the USB-based virtual machine control unit 1310, power 'on' (1402), power 'off' (1403), 'reset' A system for generating a virtual machine of a virtualization server supporting a zero client, which generates an event such as 1404 and stores a current device state in the event state machine 1401. The method of claim 1,
The virtualization unit 130 includes a virtual machine management unit 131,
The virtual machine manager 131,
A virtualization engine 131e that manages the creation and operation of virtual machines,
A virtual machine device control driver interface 131f for connection with the lower virtual machine device control driver 810;
Receiving a connection method of the current device from the device access mode switch unit 750, and in the direct allocation connection mode (750a, 750b), the USB-based virtual machine controller 1310 and the virtual machine device control driver 810 A device access mode manager 131a performing a role;
A virtual machine state controller 131b which controls a virtual machine according to a state control event received from the virtual machine device control driver 810;
An activation controller 131c which determines whether the virtual machine is operated according to whether activation is received by the virtual machine device control driver 810;
A system for setting a virtual machine of a virtualization server supporting a zero client, characterized by comprising a virtual machine configuration unit (131d). Supporting zero clients, including one or more virtual PC 100, the host driver 800 and the virtualization unit 130, by assigning a specific virtual machine to the zero client 400, by inputting information from the zero client A virtualization server 10 that provides configuration and management of virtual machines,
One or more zero clients 400 including a memory in which a unique identifier of its own zero client connected to the virtualization server 10 is recorded and including a virtual machine terminal 1000 for connection with the virtual machine 120.
The virtual machine terminal 1000 may include a USB upstream unit 1100 connected to the virtualization server 10, a USB downstream unit 1300 connected to a USB device, and a USB hub unit connecting them. As a method for setting up a virtual machine of a virtual server supporting a zero client in a system for setting up a virtual machine of a virtual server supporting a zero client, which is configured as a (Hub Unit) 1200,
(B-1) the USB-based virtual machine controller 1310 records the unique MAC for its zero client in the MAC storage 1311 (S210),
(B-2) The MAC address management unit 811 requests and obtains the MAC of the MAC storage 1311 through the USB interface 816 (S220).
(B-3) The virtual machine configuration unit 131d requests the MAC of the virtual machine through the virtual machine device control driver interface 131f to the virtual machine mac address management unit 811 before generating the virtual machine (S230).
(B-4) the virtual machine configuration unit 131d sets the MAC of the virtual NIC 121a of the virtualization engine 131e by using the collected MAC (S240),
A method for virtual machine configuration of a virtualization server supporting zero clients, characterized in that the virtual machine MAC is configured. Supporting zero clients, including one or more virtual PC 100, the host driver 800 and the virtualization unit 130, by assigning a specific virtual machine to the zero client 400, by inputting information from the zero client A virtualization server 10 that provides configuration and management of virtual machines,
One or more zero clients 400 including a memory in which a unique identifier of its own zero client connected to the virtualization server 10 is recorded and including a virtual machine terminal 1000 for connection with the virtual machine 120.
The virtual machine terminal 1000 may include a USB upstream unit 1100 connected to the virtualization server 10, a USB downstream unit 1300 connected to a USB device, and a USB hub unit connecting them. As a method for setting up a virtual machine of a virtual server supporting a zero client in a system for setting up a virtual machine of a virtual server supporting a zero client, which is configured as a (Hub Unit) 1200,
(C-1) When the virtual machine manager 131 is installed in the system, the security key verification unit 815 requests activation of the virtual machine manager 131 through the USB interface 816 (S310).
(C-2) the virtual machine device control driver 810 encrypts the security key of the security key storage 814 using the security key encryption unit 813 (S320),
(C-3) The USB-based virtual machine control unit 1310 encrypts the security key stored in the security key storage 1314 using the security key encryption unit 1313 according to the request in the step (C-1). It passes to the key verification unit 815 (S330),
(C-4) The security key verification unit 815 compares the encryption key generated in step (C-2) with the encryption key received from the USB-based virtual machine controller 1310 in step (C-3). Determine the genuine (S340),
(C-5) The activation controller 131c collects authenticity information of the security key authenticator 815 through the virtual machine device control driver interface 131f. If not, the virtualization engine 131e may be used. By deactivating (S310),
A method for virtual machine configuration of a virtualization server supporting zero clients, characterized in that activation on a virtualization platform. The method of claim 10 or 11,
(A-1) the control event unit 1400 generates a signal of power 'on' 1402, power 'off' 1403, and 'reset' 1404 (S110),
(A-2) the event state machine 1401 of the control event unit 1400 stores the state of the current virtual machine (S120),
(A-3) The virtual machine control event processing unit 1312 receives the virtual machine control event from the event state machine 1401 (S130),
(A-4) The virtual machine control event processor 1312 transmits the received control event to the virtual machine control signal receiver 812 through the USB interface 816 (S140).
(A-5) collecting the virtual machine control event received by the virtual machine control signal receiving unit 812 in the virtual machine state control unit 131b of the virtual machine management unit 131 (S150),
(A-6) The virtual machine state control unit 131b checks the collected event and transmits a command to the virtualization engine 131e to control the state of the virtual machine (S160).
A method for virtual machine configuration of a virtualization server supporting zero clients, characterized by processing virtual machine control signals. The method of claim 10 or 11, wherein the device access mode management unit,
(D-1) receives an event for a state in the device connection mode from the device access mode switch unit 750 (S410),
(D-2) by checking whether the device connection method is (S420),
(D-3) If the determination result in the step (D-2), the shared connection mode (740b), and returns to the step (D-1),
(D-4) As a result of the determination in the step (D-2), if the direct allocation connection mode 740b, the USB-based virtual machine controller 1310 and the virtual machine device control driver 810 are connected (S421). A method for setting up virtual machines on a virtualization server that supports zero clients.

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