RU2459246C1 - Method for virtualisation of terminal systems - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: method for virtualisation of terminal systems comprises a main operating system, a first guest operating system hosted in a first virtual machine, and a second guest operating system hosted in a second virtual machine, and includes steps for: receiving a fist graph API call; processing said graph API call; receiving a second graph API call; processing said second graph API call; images are composed by component, which contain the processed graph API call and the processed second graph API call, and the images are displayed on display devices; an input-output API call is received for processing input by a controller; the input-output API call is processed the input-output component of the virtual machine monitor; the input-output API call is received for processing the input-output controller.

EFFECT: broader functional capabilities of a terminal control system owing to use of additional controllers in the system for inputting information and creating access channels for physical video adapters and controllers for input into virtual machines, wherein each virtual machine corresponds to a unique video adapter and input controller.

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Description

The invention relates to the field of computer technology and is intended to create automated terminal control systems.

Currently, there are many principles of building terminal computing systems with multi-user access based on the use of virtualization technologies.

The well-known Citrix XenServer system and its similar features Citrix XenDesktop, VMware vSphere, Virtual Iron, which allows you to provide access to virtualized computer resources through local and global computer networks in web access mode and direct access to the desktop operating system running in virtual machine using Virtual Network Computing (VNC) technology or other technologies using the Remote FrameBufer protocol [1, 2, 3].

A disadvantage of the known systems is the use of network technologies, which, although it places the computational load of each user on a single computing server, does not allow us to abandon the use of computers as the hardware basis for automated workstations of operators.

The well-known system is Aster, which is a multi-user extension of Windows 98 that provides connection to a standard personal computer of several additional workstations (Windows-terminals). In the Aster system, the multi-user kernel extension of the MS Windows 98 operating system significantly changes the properties and operating modes of the operating system, and uses its undocumented features and functions [4].

A disadvantage of the known system is its low reliability and performance, as well as the use of outdated software platforms.

The well-known Microsoft Windows Multipoint Server system, the basis of which was adopted terminal access technology. It consists in the fact that when loading Multipoint Server, a special environment is loaded under a service account in console mode. In this environment, all connected user input devices (keyboards and mice) are separated for independent operation, and n - the number (n corresponds to the number of connected monitors) of the Remote Desktop Connection application that makes a “remote” connection to the same one is launched computer (that is, the connection takes place on its own). Each such application is displayed strictly on a dedicated monitor; accordingly, each operator sees his individual invitation to enter the “remote” system [5].

A disadvantage of the known system is its low reliability and orientation to the use in educational institutions, as well as insufficient isolation of workplaces within a single MultiPoint computer, which is manifested by the mutual influence of operators.

The closest in technical essence to the presented method is a method for processing calls of the graphical application programming interface based on the method of virtualization of graphic subsystems, according to which the processing of calls of the graphical application programming interface (API) in a computing system having a main operating system, the first guest operating system hosting which implemented in the first virtual machine, and the second guest operating system, hosting of which carries I was in the second virtual machine, including the steps of:

- take the first call of the graphics API for processing by the graphics processor (GPU) of the graphics subsystem of the computing system, the first call of the graphics API having a virtual address corresponding to the space of real addresses of the graphics subsystem, and created by the first virtual machine;

- process the aforementioned call of the graphic API by the graphic component of the virtual machine monitor of the virtual machine monitor component, which enables the virtual machine to function, while the graphic component of the virtual machine monitor is separated from the main operating system;

- take the second call of the graphics API for processing by the graphics processor of the graphics subsystem, the second call of the graphics API has a virtual address corresponding to the space of real addresses of the graphics subsystem, and created by the said second virtual machine;

- process the aforementioned second call of the graphic API by the graphic component of the virtual machine monitor;

- constitute a display compilation component comprising a processed first call to the graphics API and a processed second call to the graphics API, the compilation component having access to the GPU memory in which the processed first call to the graphics API is stored and the GPU memory in which the processed second call to the graphics API is stored; and display the display on the display device [6].

The disadvantage of this method with the general similarity of the technology of virtualization of video subsystems is its orientation to a single operator and, as a result, the lack of multi-user access to virtual machines, since graphic information from all virtual machines is redirected to the window even if multiple display devices are used, creating a single computing environment .

The technical result consists in expanding the functionality, namely in providing a multi-user mode of operation without using separate computers as workstations by introducing additional input controllers into the system and creating access channels for physical video adapters and input controllers in virtual machines, and each virtual machine Matches a unique video adapter and input controller.

The specified technical result is achieved by the fact that the virtualization system of terminal systems comprises a main operating system, a first guest operating system, which is hosted in the first virtual machine, and a second guest operating system, which is hosted in the second virtual machine, and includes the steps which:

- take the first call of the graphics API for processing by the graphics processor (GPU) of the graphics subsystem of the computing system, the first call of the graphics API having a virtual address corresponding to the space of real addresses of the graphics subsystem, and created by the first virtual machine;

- process the aforementioned call of the graphic API by the graphic component of the virtual machine monitor, which enables the virtual machine to function, while the graphic component of the virtual machine monitor is separated from the main operating system;

- take the second call of the graphics API for processing by the graphics processor of the graphics subsystem, the second call of the graphics API has a virtual address corresponding to the space of real addresses of the graphics subsystem, and created by the said second virtual machine;

- process the aforementioned second call of the graphic API by the graphic component of the virtual machine monitor;

- constitute a display compilation component comprising a processed first call to the graphics API and a processed second call to the graphics API, the compilation component having access to the GPU memory in which the processed first call to the graphics API is stored and the GPU memory in which the processed second call to the graphics API is stored; and display displays on display devices,

and new is that the method of virtualization of terminal systems additionally contains the following steps:

- accepting an I / O API call for processing by the input controller, the first I / O API call having a virtual address corresponding to the real address space of the I / O system belonging to the designated input controller and created by the first virtual machine;

- process the call to the I / O API by the I / O component of the virtual machine monitor;

- accepting an I / O API call for processing by the I / O controller, the second API call having a virtual address corresponding to the real address space of the I / O system belonging to the designated input controller and created by the second virtual machine.

The proposed method of virtualization of terminal systems is as follows.

Each of a number of operators (1, 2, 3) corresponds to a unique virtual machine (4, 5, 6) with the guest operating system executed in it and its own unique input devices (keyboard, mouse, touch panel, etc.) for information (7, 8, 9) and output devices (monitor, etc.) of information (10, 11, 12), as well as video adapters (13, 14, 15) installed in the computer (22) and controllers for information input interfaces (16, 17, 18) . The virtual machine monitor (19) provides access to the guest operating system (5) of each operator (2) to the hardware assigned to it (video adapter (14), input controller (17)), and the guest operating system (5) works with the hardware provided to it through standard drivers. The guest operating system (5) of the operator (2) forms the desktop and processes the graphic elements on the video processor of the adapter assigned to it (14), displays graphic information using the video interface of the same physical adapter (14) without using the virtualization of the device by the virtual machine monitor (19). Information intended to be displayed to the user comes from the video interface to the user's monitor (11) connected to the video adapter corresponding to this user (14). When data is entered by a user (2) using a keyboard or other input devices (8) connected to a physical input controller (17) corresponding to that user, the virtual machine monitor (19) does not intercept data from the information input controller (17), providing it with a guest processor operating system (5) of the user. Each operator works with a virtual machine in a similar way, through a virtual machine monitor (19) and its assigned information input / output devices (9), and has the impression of working on a separate computer allocated to it. The operator (1), the software (20) of the workstation of which does not need virtualization, also works with the host operating system (4) through the video adapter (13) and input controller (16) assigned to it.

The proposed method of virtualization of terminal systems allows you to expand the functionality of the method by creating a multi-user access function without using individual computers as workstations and exchanging data between users in real time.

Thus, the claimed system and method of virtualization of terminal systems have new properties that determine the receipt of a positive effect.

Literature

1. Citrix Systems - Virtualization, Networking and Cloud. Simplified. [Electronic resource]. Access mode: http://www.citrix.ru, free. Zag from the screen.

2. VMware vSphere 4: private "clouds", server and data center virtualization [Electronic resource]. Access mode: http://www.vmware.com/en/products/vsphere/overview.html, free. Zag from the screen.

3. Virtual Iron [Electronic resource]. Access mode: http://www.oracle.com/us/corporate/Acquisitions/virtualiron/virtualiron-general-presentation-072284-pdf, free. Zag from the screen.

4. Patent No. 28260 of the Russian Federation, G06F 13/00. System "Aster" // Invalev A.S. (Russian Federation) Application 2002112914/20, 05.21.2002. Publ. 03/10/2003.

5. Windows MultiPoint Server 2010 [Electronic resource]. Access mode: http://technet.microsoft.com/en-us/library/wms-2010-multipoint-server-index.aspx, free. Zag from the screen.

6. Patent No. 2406128 of the Russian Federation, G06F 17/00. System and method for virtualization of graphic subsystems // Blit David R. (US) Application: 2005136419/08, 11.23.2005. Publ. 12/10/2010.

Claims (1)

A virtualization method for terminal systems, which consists in processing calls to a graphical application programming interface (API) in a computer system having a main operating system, a first guest operating system that is hosted in the first virtual machine with information input / output controller associated with it, a video adapter and information input-output devices, and a second guest operating system with an information input-output controller associated with it, a video adapter ohm input and output devices of information hosting which the second virtual machine, including the steps of:
- accept the first call of the graphics API for processing by the graphics processor (GPU) of the graphics subsystem of the computing system, the first call of the graphics API having a virtual address corresponding to the space of real addresses of the graphics subsystem belonging to GPU 1 and created by the first virtual machine;
- process the aforementioned call of the graphic API by the graphic component of the virtual machine monitor of the virtual machine monitor component, which enables the virtual machine to function, while the graphic component of the virtual machine monitor is separated from the main operating system;
- take a second call to the graphics API for processing the GPU, and the second call to the graphics API has a virtual address corresponding to the space of real addresses of the graphics subsystem belonging to the GPU 2, and created by the said second virtual machine;
- process the aforementioned second call of the graphic API by the graphic component of the virtual machine monitor;
- constitute a mapping component for each virtual machine, comprising:
for the first virtual machine, the processed first call to the graphics API, the composing component having access to the memory of the GPU 1, which stores the processed first call to the graphics API;
for the second virtual machine, the processed second call to the graphics API, the compilation component having access to the memory of the GPU 2, which stores the processed second call to the graphics API;
and displays are displayed using video systems of graphic subsystems on display devices connected to them, moreover, virtual machine 1 corresponds to a video system of graphic subsystem 1, virtual machine 2 corresponds to a video system of graphic subsystem 2, characterized in that the method of virtualizing terminal systems further comprises the following steps:
- accepting an I / O API call for processing by the input controller, the first I / O API call having a virtual address corresponding to the real address space of the I / O system belonging to the assigned input controller 1 and created by the first virtual machine;
- process the call to the I / O API by the I / O component of the virtual machine monitor;
- accept the I / O API call, and the second API call has a virtual address corresponding to the real address space of the I / O system, belonging to the assigned input controller 2, and created by the second virtual machine.