CN117155926A - OEIDP desktop protocol deployment method and device for integrating architecture desktop cloud - Google Patents

Abstract

The application discloses an OEIDP desktop protocol deployment method, a storage medium and a device for a converged architecture desktop cloud, and relates to the technical field of desktop clouds. Operating the desktop on the converged framework desktop cloud on a converged framework desktop cloud cluster, deploying a client and a data transmission module, and deploying a server on the desktop; establishing connection between a desktop and a data transmission module and connection between the data transmission module and a client; based on the data transmission module, the client of the OEIDP desktop protocol establishes connection with any desktop on the fusion architecture desktop cloud. The method can be well adapted to the desktop cloud with the fusion architecture, and has a wide application range.

Description

OEIDP desktop protocol deployment method and device for integrating architecture desktop cloud

Technical Field

The application relates to the technical field of desktop clouds, in particular to an OEIDP desktop protocol deployment method, a storage medium and a device for a desktop cloud with a fusion architecture.

Background

The desktop cloud system generally comprises a client, a desktop protocol, a server and a cloud management platform. The desktop protocol is used as an indispensable part of the desktop cloud system, and the user experience after the interaction of the desktop cloud system is directly determined by the advantages and disadvantages of the desktop protocol.

Currently, each head desktop cloud manufacturer has a self-developed desktop protocol according to the actual situation of the head desktop cloud manufacturer, but the existing desktop protocol is generally only applicable to a single desktop architecture scene and cannot be applied to a fusion architecture desktop cloud scene.

Disclosure of Invention

Aiming at the defects in the prior art, the application aims to provide an OEIDP desktop protocol deployment method, a storage medium and a device for a converged framework desktop cloud, which can be well adapted to the converged framework desktop cloud and has wide application range.

In order to achieve the above purpose, the application provides an OEIDP desktop protocol deployment method of a fusion architecture desktop cloud, which specifically comprises the following steps:

creating a set OEIDP desktop protocol, wherein the OEIDP desktop protocol comprises a server, a client and a data transmission module;

operating the desktop on the converged framework desktop cloud on a converged framework desktop cloud cluster, deploying a client and a data transmission module, and deploying a server on the desktop;

establishing connection between a desktop and a data transmission module and connection between the data transmission module and a client;

based on the data transmission module, the client of the OEIDP desktop protocol establishes connection with any desktop on the fusion architecture desktop cloud.

On the basis of the technical proposal, the method comprises the following steps,

the server of the OEIDP desktop protocol is a framework comprising a central network and a plurality of service channels;

the central network supports TCP and SSL TCP transmission protocols for completing the creation and destruction of the service channel;

the service channels are used for completing the service requirements of all channels of the desktop cloud, and comprise a main channel, an image channel, a control channel, a file channel, a printer channel, a port agent channel, a shear plate channel, a sound channel and a recording channel.

Based on the technical scheme, the encoding module of the OEIDP desktop protocol server adopts a plug-in architecture, supports JPEG, H264 and H265 encoding formats, and can realize dynamic switching of encoding formats based on applicable scenes.

On the basis of the technical proposal, the method comprises the following steps,

the client of the OEIDP desktop protocol supports a Windows system and a Linux system under an X86 architecture and an arm-Linux system under an arm architecture;

the decoding of the client adopts a mode of combining hard decoding and soft decoding.

On the basis of the technical proposal, the method comprises the following steps,

the data transmission module of the OEIDP desktop protocol supports various network transmission protocols, and can select and use different network transmission protocols in different network states according to actual and practical scenes;

the data transmission module can also adopt a fast memory channel for data transmission under the condition of network isolation, wherein the fast memory channel is provided by virtualization software QEMU-KVM.

On the basis of the technical proposal, the method comprises the following steps,

the desktop on the desktop cloud of the fusion architecture comprises a Da desktop, a Db desktop, a Dc desktop and a Dd desktop;

the Da desktop and the Db desktop are VDI desktops and run on a universal server of a fusion architecture desktop cloud cluster, the network of the Db desktop is an isolation network, and the universal server is an X86 or Intel architecture;

the Dc desktop is a VOI desktop and runs on a fat terminal of the fusion architecture desktop cloud cluster;

the Dd desktop is an IDV desktop and runs on a fat terminal of the fusion architecture desktop cloud cluster.

On the basis of the technical proposal, the method comprises the following steps,

the server side is deployed in the desktop of the fusion architecture desktop cloud, and each desktop is deployed with a server side;

the data transmission module is deployed in the fusion architecture desktop cloud cluster;

the client is deployed on a thin terminal.

On the basis of the technical scheme, the connection between the desktop and the data transmission module and the connection between the data transmission module and the client are established, and the connection between the data transmission module and the client is specifically:

the Da desktop, the Db desktop and the Dd desktop are connected to the data transmission module through a TCP network, and the Db desktop is connected to the data transmission module through a fast memory channel;

the client is connected to the data transmission module via a TCP, UDP or QUIC protocol.

The application provides an OEIDP desktop protocol deployment device of a fusion architecture desktop cloud, which comprises:

the system comprises a creation module, a data transmission module and a data transmission module, wherein the creation module is used for creating a set OEIDP desktop protocol, and the OEIDP desktop protocol comprises a server, a client and the data transmission module;

the deployment module is used for running the desktop on the desktop cloud with the fusion architecture on the desktop cloud cluster with the fusion architecture and deploying the server, the client and the data transmission module;

the connection module is used for establishing connection between the desktop and the data transmission module and connection between the data transmission module and the client;

and the access module is used for driving the client of the OEIDP desktop protocol to establish connection with any desktop on the fusion architecture desktop cloud based on the data transmission module.

On the basis of the technical proposal, the method comprises the following steps,

the server of the OEIDP desktop protocol is a framework comprising a central network and a plurality of service channels;

the central network supports TCP and SSLTCP transmission protocols for completing the creation and destruction of the service channels;

the service channels are used for completing the service requirements of all channels of the desktop cloud, and comprise a main channel, an image channel, a control channel, a file channel, a printer channel, a port agent channel, a shear plate channel, a sound channel and a recording channel.

Compared with the prior art, the application has the advantages that: the OEIDP desktop protocol comprises a server, a client and a data transmission module, the desktop on the desktop cloud of the fusion architecture is operated on the desktop cloud cluster of the fusion architecture, the client and the data transmission module are deployed, the server is deployed on the desktop, connection between the desktop and the data transmission module is established, connection between the data transmission module and the client is established, and finally connection between the client of the OEIDP desktop protocol and any desktop on the desktop cloud of the fusion architecture is established based on the data transmission module.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flowchart of an OEIDP desktop protocol deployment method of a converged architecture desktop cloud in an embodiment of the present application;

fig. 2 is a schematic diagram of the deployment of OEIDP desktop protocol.

Detailed Description

The embodiment of the application provides an OEIDP desktop protocol deployment method of a converged framework desktop cloud, which comprises the steps of operating a desktop on the converged framework desktop cloud on a converged framework desktop cloud cluster by creating a set OEIDP desktop protocol, including a server, a client and a data transmission module, deploying the client and the data transmission module, deploying the server on the desktop, establishing connection between the desktop and the data transmission module and connection between the data transmission module and the client, and finally establishing connection between the client of the OEIDP desktop protocol and any desktop on the converged framework desktop cloud based on the data transmission module. The application correspondingly provides a non-transitory computer readable storage medium and an OEIDP desktop protocol deployment device of the fusion architecture desktop cloud.

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application.

Referring to fig. 1, the OEIDP desktop protocol deployment method for the desktop cloud with the fusion architecture provided by the embodiment of the present application specifically includes the following steps:

s1: creating a set OEIDP desktop protocol, wherein the OEIDP desktop protocol comprises a server, a client and a data transmission module; in the application, OEIDP is called OS EASY INTELLIGENT DESKTOP PROTOCOL, which is a self-defined intelligent DESKTOP PROTOCOL.

In the application, the server of OEIDP desktop protocol is a framework comprising a central network and a plurality of service channels; the central network supports TCP (Transmission Control Protocol ) and SSL (Secure Socket Layer, secure sockets layer) TCP transport protocols for completing creation and destruction of traffic channels; the service channels are used for completing the service requirements of all channels of the desktop cloud, and comprise a main channel, an image channel, a control channel, a file channel, a printer channel, a port agent channel, a shear plate channel, a sound channel and a recording channel. I.e. the service channels are used to meet a wide variety of service requirements.

In the application, the encoding module of the OEIDP desktop protocol server adopts a plug-in architecture, supports JPEG, H264 and H265 encoding formats, and can realize dynamic switching of encoding formats based on applicable scenes. The method and the system have the advantages that complex use scenes of the desktop cloud of the fusion architecture are met, the coding module of the server uses a plug-in architecture, multiple coding formats such as JPEG, H264 and H265 are supported, various coding formats can be dynamically switched through intelligent identification of the use scenes, and meanwhile decoding capability of the client is considered.

In the application, the client of the OEIDP desktop protocol supports a Windows system and a Linux system under an X86 architecture and an arm-Linux system under an arm architecture, and the optimal experience effect can be achieved by the characteristics of hardware per se as much as possible;

the decoding of the client adopts a mode of combining hard decoding and soft decoding. That is, in order to adapt to more client scenes, the client decoding adopts a hard/soft combination mode, the hard decoding supports h264, h265, and the like, is responsible for solving high frame rate scenes, the soft decoding supports AJE, MJPEG, H, 264, and the like, and has most possible optimized experience through multi-thread decoding, and other scenes under non-high frame rate.

In order to achieve the best use effect, when the client is connected with the server, the client reports the local decoding capability of the client, and the server dynamically switches the compression algorithm after scene recognition.

In the application, the data transmission module of the OEIDP desktop protocol supports a plurality of network transmission protocols, and can select and use different network transmission protocols in different network states according to actual scenes; the data transmission module supports various network protocols including TCP, UDP (User Datagram Protocol ) and the like, also includes QUIC (quick UDP network connection) protocols used in WLAN (Wireless Local Area Networks, wireless local area network) scenes, and can use blind network protocols in different network states according to actual use scenes, and blind data channels can also use different network protocols for transmission according to requirements.

The data transmission module can also transmit data under the network isolation condition by adopting a fast memory channel, wherein the fast memory channel is provided by virtualization software QEMU-KVM (a simulator). The flash memory channel may be IVSHMEM, IVSHMEM, which is a special device that shares memory between a host and a virtual machine or between multiple virtual machines.

Namely, to adapt to the problem of network isolation between the desktop internal network and the external network on the VDI (virtual desktop infrastructure) and IDV (Intelligent Desktop Virtualization ) architecture, under the condition of network isolation, a fast memory channel is used to replace the traditional network protocol to transmit data.

Further, to enhance the use experience of the VOI (Virtual Office Infrastructure, virtualized office environment) architecture scene desktop, the OEIDP desktop protocol also supports MFT hardware coding, delivering the physical PC (Personal Computer ) desktop remotely.

It should be noted that, the desktop cloud with the converged architecture and the desktop cloud system are converged with multiple architectures (VDI, VOI, IDV, etc.), and the desktop cloud with multiple architectures can be delivered according to the needs, and the desktop can be used locally or can be used anywhere on the network through the desktop protocol.

S2: operating the desktop on the converged framework desktop cloud on a converged framework desktop cloud cluster, deploying a client and a data transmission module, and deploying a server on the desktop;

for the OEIDP desktop protocol deployment mode of the present application, referring to FIG. 2, the desktop on the converged architecture desktop cloud includes a Da desktop, a Db desktop, a Dc desktop and a Dd desktop. The Da desktop and the Db desktop are VDI desktops and run on a universal server of the fusion architecture desktop cloud cluster, the network of the Db desktop is an isolation network, and the universal server is an X86 or Intel architecture; the Dc desktop is a VOI desktop and runs on a fat terminal of the fusion architecture desktop cloud cluster; the Dd desktop is an IDV desktop and runs on a fat terminal of the fusion architecture desktop cloud cluster. The fat terminal can be an X86 architecture or other architectures such as ARM.

In the application, the server is deployed in the desktop of the desktop cloud with the fusion architecture, and each desktop is deployed with a server; the data transmission module is deployed in the fusion architecture desktop cloud cluster; the client is deployed on a thin terminal.

S3: establishing connection between a desktop and a data transmission module and connection between the data transmission module and a client;

in the application, the connection between the desktop and the data transmission module and the connection between the data transmission module and the client are established, and the connection between the desktop and the data transmission module and the client are specifically:

the Da desktop, the Db desktop and the Dd desktop are connected to the data transmission module through a TCP network, and the Db desktop is connected to the data transmission module through a fast memory channel; the network where the Db desktop is located is an isolated network, and is connected to the data transmission module through a fast memory channel.

The client is connected to the data transmission module via a TCP, UDP or QUIC protocol. I.e. the client may choose a TCP, UDP or QUIC protocol to connect to the data transfer module depending on the situation.

S4: based on the data transmission module, the client of the OEIDP desktop protocol establishes connection with any desktop on the fusion architecture desktop cloud.

According to the OEIDP desktop protocol deployment method of the fusion architecture desktop cloud, the OEIDP desktop protocol is established, the OEIDP desktop protocol comprises a server, a client and a data transmission module, the desktop on the fusion architecture desktop cloud is operated on the fusion architecture desktop cloud cluster, the client and the data transmission module are deployed, the server is deployed on the desktop, connection between the desktop and the data transmission module is established, connection between the data transmission module and the client is established, and finally connection between the client of the OEIDP desktop protocol and any desktop on the fusion architecture desktop cloud is established based on the data transmission module.

In a possible implementation manner, the embodiment of the present application further provides a non-transitory computer readable storage medium, where the readable storage medium is located in a PLC (Programmable Logic Controller ) controller, and a computer program is stored on the readable storage medium, where the program is executed by a processor to implement the following steps of the OEIDP desktop protocol deployment method of the fusion architecture desktop cloud:

creating a set OEIDP desktop protocol, wherein the OEIDP desktop protocol comprises a server, a client and a data transmission module;

operating the desktop on the converged framework desktop cloud on a converged framework desktop cloud cluster, deploying a client and a data transmission module, and deploying a server on the desktop;

establishing connection between a desktop and a data transmission module and connection between the data transmission module and a client;

based on the data transmission module, the client of the OEIDP desktop protocol establishes connection with any desktop on the fusion architecture desktop cloud.

The storage media may take the form of any combination of one or more computer-readable media. The computer readable medium may be a computer readable signal medium or a computer readable storage medium. The computer readable storage medium may be, for example, but not limited to: an electrical, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or a combination of any of the foregoing. More specific examples (a non-exhaustive list) of the computer-readable storage medium would include the following: an electrical connection having one or more wires, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing. In this document, a computer readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device.

The computer readable signal medium may include a propagated data signal with computer readable program code embodied therein, either in baseband or as part of a carrier wave. Such a propagated data signal may take any of a variety of forms, including, but not limited to, electro-magnetic, optical, or any suitable combination of the foregoing. A computer readable signal medium may also be any computer readable medium that is not a computer readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device. Program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to: wireless, wire, fiber optic cable, RF, etc., or any suitable combination of the foregoing.

Computer program code for carrying out operations of the present application may be written in one or more programming languages, including an object oriented programming language such as Java, smalltalk, C ++ and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the case of a remote computer, the remote computer may be connected to the user's computer through any kind of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or may be connected to an external computer (for example, through the Internet using an Internet service provider).

The OEIDP desktop protocol deployment device for the fusion architecture desktop cloud provided by the embodiment of the application comprises a creation module, a deployment module, a connection module and an access module.

The OEIDP desktop protocol comprises a server, a client and a data transmission module; the deployment module is used for operating the desktop on the desktop cloud with the fusion architecture on the desktop cloud cluster with the fusion architecture, deploying the client and the data transmission module, and deploying the server on the desktop; the connection module is used for establishing connection between the desktop and the data transmission module and connection between the data transmission module and the client; the access module is used for driving the client of the OEIDP desktop protocol to establish connection with any desktop on the fusion architecture desktop cloud based on the data transmission module.

In the application, the server of OEIDP desktop protocol is a framework comprising a central network and a plurality of service channels;

the central network supports TCP and SSL TCP transmission protocols for completing the creation and destruction of the service channel;

the service channels are used for completing the service requirements of all channels of the desktop cloud, and comprise a main channel, an image channel, a control channel, a file channel, a printer channel, a port agent channel, a shear plate channel, a sound channel and a recording channel.

In the application, the encoding module of the OEIDP desktop protocol server adopts a plug-in architecture, supports AJE, JPEG, H, H265 encoding formats, and can realize dynamic switching of encoding formats based on applicable scenes.

In the application, a client of the OEIDP desktop protocol supports a Windows system and a Linux system under an X86 architecture and an arm-Linux system under an arm architecture;

the decoding of the client adopts a mode of combining hard decoding and soft decoding.

In the application, the data transmission module of the OEIDP desktop protocol supports a plurality of network transmission protocols, and can select and use different network transmission protocols in different network states according to actual scenes;

the data transmission module can also adopt a fast memory channel for data transmission under the condition of network isolation, wherein the fast memory channel is provided by virtualization software QEMU-KVM.

In the application, desktops on the desktop cloud of the fusion framework comprise a Da desktop, a Db desktop, a Dc desktop and a Dd desktop;

the Da desktop and the Db desktop are VDI desktops and run on a universal server of a fusion architecture desktop cloud cluster, the network of the Db desktop is an isolation network, and the universal server is an X86 or Intel architecture;

the Dc desktop is a VOI desktop and runs on a fat terminal of the fusion architecture desktop cloud cluster;

the Dd desktop is an IDV desktop and runs on a fat terminal of the fusion architecture desktop cloud cluster.

In the application, the server is deployed in the desktop of the desktop cloud with the fusion architecture, and each desktop is deployed with a server;

the data transmission module is deployed in the fusion architecture desktop cloud cluster;

the client is deployed on a thin terminal.

In the application, the connection between the desktop and the data transmission module and the connection between the data transmission module and the client are established, and the connection between the desktop and the data transmission module and the client are specifically:

the Da desktop, the Db desktop and the Dd desktop are connected to the data transmission module through a TCP network, and the Db desktop is connected to the data transmission module through a fast memory channel;

the client is connected to the data transmission module via a TCP, UDP or QUIC protocol.

The foregoing is only a specific embodiment of the application to enable those skilled in the art to understand or practice the application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Claims (10)

1. An OEIDP desktop protocol deployment method of a converged architecture desktop cloud is characterized by comprising the following steps:

creating a set OEIDP desktop protocol, wherein the OEIDP desktop protocol comprises a server, a client and a data transmission module;

operating the desktop on the converged framework desktop cloud on a converged framework desktop cloud cluster, deploying a client and a data transmission module, and deploying a server on the desktop;

establishing connection between a desktop and a data transmission module and connection between the data transmission module and a client;

based on the data transmission module, the client of the OEIDP desktop protocol establishes connection with any desktop on the fusion architecture desktop cloud.

2. The OEIDP desktop protocol deployment method of the converged framework desktop cloud of claim 1, wherein:

the server of the OEIDP desktop protocol is a framework comprising a central network and a plurality of service channels;

the central network supports TCP and SSL TCP transmission protocols for completing the creation and destruction of the service channel;

the service channels are used for completing the service requirements of all channels of the desktop cloud, and comprise a main channel, an image channel, a control channel, a file channel, a printer channel, a port agent channel, a shear plate channel, a sound channel and a recording channel.

3. The OEIDP desktop protocol deployment method of the converged framework desktop cloud of claim 2, wherein: the encoding module of the OEIDP desktop protocol server adopts a plug-in architecture, supports JPEG, H264 and H265 encoding formats, and can realize dynamic switching of encoding formats based on applicable scenes.

4. The OEIDP desktop protocol deployment method of the converged framework desktop cloud of claim 1, wherein:

the client of the OEIDP desktop protocol supports a Windows system and a Linux system under an X86 architecture and an arm-Linux system under an arm architecture;

the decoding of the client adopts a mode of combining hard decoding and soft decoding.

5. The OEIDP desktop protocol deployment method of the converged framework desktop cloud of claim 1, wherein:

the data transmission module of the OEIDP desktop protocol supports various network transmission protocols, and can select and use different network transmission protocols in different network states according to actual and practical scenes;

the data transmission module can also adopt a fast memory channel for data transmission under the condition of network isolation, wherein the fast memory channel is provided by virtualization software QEMU-KVM.

6. The OEIDP desktop protocol deployment method of the converged framework desktop cloud of claim 1, wherein:

the desktop on the desktop cloud of the fusion architecture comprises a Da desktop, a Db desktop, a Dc desktop and a Dd desktop;

the Da desktop and the Db desktop are VDI desktops and run on a universal server of a fusion architecture desktop cloud cluster, the network of the Db desktop is an isolation network, and the universal server is an X86 or Intel architecture;

the Dc desktop is a VOI desktop and runs on a fat terminal of the fusion architecture desktop cloud cluster;

the Dd desktop is an IDV desktop and runs on a fat terminal of the fusion architecture desktop cloud cluster.

7. The OEIDP desktop protocol deployment method of the converged framework desktop cloud of claim 6, wherein:

the server side is deployed in the desktop of the fusion architecture desktop cloud, and each desktop is deployed with a server side;

the data transmission module is deployed in the fusion architecture desktop cloud cluster;

the client is deployed on a thin terminal.

8. The method for deploying OEIDP desktop protocol of converged desktop cloud of claim 7, wherein said establishing connection between desktop and data transmission module, and connection between data transmission module and client, is specific to:

the Da desktop, the Db desktop and the Dd desktop are connected to the data transmission module through a TCP network, and the Db desktop is connected to the data transmission module through a fast memory channel;

the client is connected to the data transmission module via a TCP, UDP or QUIC protocol.

9. An OEIDP desktop protocol deployment apparatus for a converged architecture desktop cloud, comprising:

the system comprises a creation module, a data transmission module and a data transmission module, wherein the creation module is used for creating a set OEIDP desktop protocol, and the OEIDP desktop protocol comprises a server, a client and the data transmission module;

the deployment module is used for running the desktop on the desktop cloud with the fusion architecture on the desktop cloud cluster with the fusion architecture and deploying the server, the client and the data transmission module;

the connection module is used for establishing connection between the desktop and the data transmission module and connection between the data transmission module and the client;

and the access module is used for driving the client of the OEIDP desktop protocol to establish connection with any desktop on the fusion architecture desktop cloud based on the data transmission module.

10. The OEIDP desktop protocol deployment apparatus of a converged architecture desktop cloud of claim 9, wherein:

the server of the OEIDP desktop protocol is a framework comprising a central network and a plurality of service channels;

the central network supports TCP and SSLTCP transmission protocols for completing the creation and destruction of the service channels;

the service channels are used for completing the service requirements of all channels of the desktop cloud, and comprise a main channel, an image channel, a control channel, a file channel, a printer channel, a port agent channel, a shear plate channel, a sound channel and a recording channel.