KR100988130B1 - Terminal server apparatus and method for detecting drive of client in server based computing system of terminal environment - Google Patents

Abstract

The present invention relates to a technique for recognizing a drive of a client terminal in a server-based computing system in a terminal environment. A terminal server apparatus for providing a terminal service to a terminal client remotely connected through a network according to the present invention includes: a terminal service execution unit configured to provide a terminal service by creating an independent terminal session for the terminal client; A virtual drive agent that determines a virtual drive eligibility for the logical drive list of the client terminal based on the logical drive information of the client terminal received from the terminal client through the terminal session; And a virtual drive generator that generates a virtual drive for the logical drive list and mounts the terminal in the terminal session according to a virtual drive eligibility determination result.

Terminal Services, Virtual Drives, RDP, Storage Devices

Description

TERMINAL SERVER APPARATUS AND METHOD FOR DETECTING DRIVE OF CLIENT IN SERVER BASED COMPUTING SYSTEM OF TERMINAL ENVIRONMENT}

The present invention relates to a server-based computing system in a terminal environment, and more particularly, to a technology for recognizing a drive of a client terminal remotely accessed from a terminal server.

A server-based computing system in a terminal environment is a system that remotely connects to a server using a terminal client so that server resources are available to the client. That is, all the client applications are installed on the server instead of being installed on the client terminal, and only the application execution result screen of the server is transmitted to the client terminal and executed by utilizing the resources of the server. It's a system that makes it appear to be running on.

When the client connects to the server remotely, the server divides the connected user environment into sessions and profiles to maintain an independent environment without interfering between sessions, and the client can use the server's resources without restriction. For this reason, Terminal Services was initially used for remote server management, but recently it has evolved to service applications by applying it.

The actual data is not transmitted and received between the server and the client. All the work is done at the server, and only the result of the server's work is transmitted to the client in a bitmap format. Since all the work is done on the server, the CPU, memory, etc. used by the executed program use the server's resources, and the client's resources are required only for the client's operation.

Application service in this terminal service environment is very secure because the work data cannot be leaked to the outside because work is done on 100% server.

However, in a terminal service environment, storage devices (eg, HDDs and USBs) recognized by the client terminal are recognized in a form different from the device types recognized by the client terminal in the server. For example, the storage device recognized as 'C: \' at the client terminal is displayed as '\\ tsclient \ C' at the server terminal when the client terminal accesses the server. As described above, in the terminal service, a drive type of a storage device recognized by a client terminal and a storage device recognized by a server are different, and thus a different result may be generated when using a program for classifying drive types.

The present invention was devised to solve the above problems, and provides a terminal service server device and a method for recognizing a drive of a client terminal that recognizes a storage device (ie, a drive) of a client terminal remotely accessed from a terminal service as a local drive. The purpose is to.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

In accordance with a first embodiment of the present invention for achieving the above object, a terminal server apparatus for providing a terminal service to a terminal client remotely connected through a network may generate a terminal by creating an independent terminal session for the terminal client. A terminal service execution unit providing a service; A virtual drive agent that determines a virtual drive eligibility for the logical drive list of the client terminal based on the logical drive information of the client terminal received from the terminal client through the terminal session; And a virtual drive generator that generates a virtual drive for the logical drive list and mounts the terminal in the terminal session according to a virtual drive eligibility determination result.

The terminal service execution unit of the terminal server device generates a network drive for the logical drive list of the client terminal and mounts the terminal in the terminal session, and the virtual drive agent sets the network drive as a mount point of the virtual drive. It is preferable.

In another aspect, the virtual drive agent of the terminal server device includes a file folder checking module for transmitting a temporary file creation command for a specific file folder in a logical drive list to the terminal client and receiving the execution result accordingly; The virtual drive generator may generate and mount a virtual drive including an access path of the specific file folder according to the execution result.

The terminal client monitors the logical drive list of the client terminal in real time and transmits the logical drive information in real time whenever a new storage device is mounted in the client terminal, and the virtual drive agent receives the logical drive information in real time. The same virtual drive processing can be performed.

On the other hand, in a terminal server according to a second embodiment of the present invention for achieving the above object, a method for providing a terminal service to a terminal client remotely connected through a network and recognizing a drive of a client terminal, the terminal client Creating an independent terminal session in accordance with the connection of the; Receiving logical drive information of a client terminal from the terminal client via the terminal session; Determining virtual drive eligibility for the logical drive list of the client terminal based on the received logical drive information; And generating a virtual drive for the logical drive list and mounting the terminal in the terminal session according to a virtual drive eligibility determination result.

Before determining the virtual drive eligibility, generating a network drive for the logical drive list of the client terminal and mounting the network drive in the terminal session; and generating and mounting the virtual drive to the network drive. It is preferable to set the mount point of the virtual drive.

In another aspect, in the process of determining the virtual drive eligibility, a temporary file generation command for a specific file folder in a logical drive list is transmitted to the terminal client and an execution result according to the temporary file creation command is received from the terminal client. do. When the virtual drive is created and mounted, a virtual drive including an access path of the specific file folder may be created and mounted according to the execution result.

According to the present invention as described above, in a terminal service of a server-client structure, a terminal server mounts a storage device mounted on a client terminal as a local drive, so that even an application program that distinguishes drive types can be executed in the terminal server. . As a result, the range of applications available for terminal services can be extended, thereby enabling the activation of terminal services.

The foregoing and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, in which: There will be. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram showing the configuration of a terminal service system according to an embodiment of the present invention.

As shown in FIG. 1, the terminal service system according to the present exemplary embodiment includes a client terminal 110 and a terminal server 130 connected to the client terminal 110 through a network 150.

The user accesses the terminal server 130 using the client terminal 110 to perform authentication, and the terminal server 130 creates a terminal session for the access client terminal 110 to maintain an environment independent of other clients. The application program is executed to transmit only the application program execution result screen to the client terminal 110.

The client terminal 110 returns the user's input (for example, keyboard input and mouse click) processed in the application program execution result screen received from the terminal server 130 to the terminal server 130, and the terminal server 130 The application program is processed according to the user input returned from the client terminal 110, and the execution result screen is transmitted back to the client terminal 110.

Referring to FIG. 1, the client terminal 110 includes a terminal client 111. The terminal client 111 accesses the terminal server 130 through the network 150 according to a user input, receives an execution screen of an application program from the terminal service execution unit 131 of the terminal server 130, and displays the screen on the screen. Display. The terminal client 111 returns a user's input for the application program execution screen being displayed on the screen to the terminal service execution unit 131 and receives the execution screen accordingly to update and display the currently displayed screen.

The terminal client 111 includes a drive agent 113. When the terminal client 111 is executed, the drive agent 113 monitors the storage devices (HDD, USB, etc.) mounted and mounted on the client terminal 110 in real time, and mounts them on the client terminal 110. Collected logical drive information (e.g., C: \, D: \, logical drive name, drive type (HDD DISK, USB DISK, NETWORK DISK, CD-ROM, FDD, etc.)). The drive agent 113 transmits the collected logical drive information to the terminal server 130 through a virtual channel of the terminal service.

In detail, the drive agent 113 collects logical drive information mounted on the client terminal 110 when the first terminal client 111 is executed and accesses the terminal server 130. 130). In addition, the drive agent 113 monitors the logical drive list of the client terminal 110 in real time, and when the new storage device is mounted, collects the mounted logical drive information and transmits the information to the terminal server 130 through a virtual channel.

Referring to FIG. 1, the terminal server 130 includes a terminal service execution unit 131, a virtual drive agent 133, and a virtual drive generation unit 135.

The terminal service execution unit 131 maintains an independent environment by creating independent terminal sessions 137-1, 137-2, ..., 137-N for each access client, and executes an application to execute only the application execution result screen. Transmission to the terminal 110. In addition, the terminal service execution unit 131 receives a user input on the application program execution result screen from the terminal client 111 of the client terminal 110 and controls the application program according to the user input to execute the execution result screen accordingly. To the terminal client 111.

When the terminal service execution unit 131 receives the logical drive information from the drive agent 113 of the client terminal 110 through the terminal sessions 137-1, 137-2, ..., 137-N, the terminal service execution unit 131 receives the logical drive information. A UNC (Universal Naming Convention) path is generated based on the received logical drive information to mount the drive of the client terminal 111. That is, the drive of the client terminal 110 is mounted on the terminal server 130 as a network drive.

In addition, the terminal service execution unit 131 transfers the logical drive information received from the drive agent 113 of the client terminal 110 to the virtual drive agent 133.

The virtual drive agent 133 determines whether the drive is eligible for the logical drive list by using the logical drive information received from the terminal service execution unit 131. The virtual drive agent 133 checks whether the received logical drive list is a drive type (HDD, USB, etc.) set to be assigned as a virtual drive. The virtual drive agent 133 transmits a driving command to the virtual drive generator 135 when the received logical drive list is a virtual drive target.

The virtual drive generator 135 generates and mounts a virtual drive according to a driving command of the virtual drive agent 133. The virtual drive generation unit 135 generates and mounts the virtual drive in the form of the same string as the drive string in the client terminal 110. The virtual drive generation unit 135 detects one of the logical drive letters (up to AZ) that are not currently used in the terminal session, registers the virtual drive having the logical drive letter, and sets the mount point of the virtual drive. This is specified as the network drive path, which is the actual path mounted to the session. Therefore, the logical drive type of the client terminal 110 mounted on the terminal server 130 becomes the same as the logical drive type mounted on the client terminal 110.

FIG. 2 is a flowchart illustrating an example of a virtual drive recognition method in the terminal service system of FIG. 1.

Referring to FIG. 2, the client terminal 110 drives the terminal client 111 according to a terminal connection input of a user (S201). The terminal client 111 connects to the terminal server 130 through the network 150 (S203). In the process of accessing the terminal server 130, the terminal server 130 requests user authentication information from the terminal client 111, and performs user authentication processing using the user authentication information (for example, ID and password) input accordingly. To perform.

When the terminal client 111 of the client terminal 110 is driven and connected as described above, the terminal service execution unit 131 of the terminal server 130 generates an independent terminal session for the client (S205).

On the other hand, the drive agent 113 provided in the terminal client 111 of the client terminal 110 is executed simultaneously with the driving of the terminal client 111 to collect the logical drive information mounted on the client terminal 110 (S207). . The drive agent 113 transmits the collected logical drive information to the terminal server 130 (S209).

The terminal service execution unit 131 of the terminal server 130 uses the logical drive information received from the drive agent 113 of the terminal client 111 to drive a drive item of the client terminal 110 as a network drive (that is, After mounting with a UNC path, the received logical drive information is transmitted to the virtual drive agent 133 (S211).

The virtual drive agent 133 of the terminal server 130 determines whether or not the virtual drive eligibility of the received logical drive list of the client terminal 110 (S213). For example, it is checked whether the received logical drive list is a drive type set to be assigned as a virtual drive.

If the logical drive list is a virtual drive target that is eligible for the virtual drive, the virtual drive agent 133 of the terminal server 130 passes the corresponding logical drive information to the virtual drive generator 135 and instructs the virtual drive creation. The virtual drive generator 135 generates a virtual drive and mounts the terminal in the terminal session (S215).

Accordingly, the drive type mounted on the client terminal 110 and the drive type of the client terminal 110 mounted on the terminal server 130 are the same, so that an application program for classifying drive types can be utilized for terminal services. .

FIG. 3 is a flowchart illustrating another example of a virtual drive recognition method in the terminal service system of FIG. 1.

Referring to FIG. 3, the client terminal 110 drives the terminal client 111 according to a terminal connection input of a user (S301). The terminal client 111 connects to the terminal server 130 through the network 150 (S303). In the process of accessing the terminal server 130, the terminal server 130 requests user authentication information from the terminal client 111, and performs user authentication processing using the user authentication information (for example, ID and password) input accordingly. To perform.

When the terminal client 111 of the client terminal 110 is driven and connected as described above, the terminal service execution unit 131 of the terminal server 130 generates an independent terminal session for the corresponding client (S305). After connecting to the terminal server 130, the terminal client 111 collects logical drive information pre-mounted on the client terminal 110 through the process described with reference to FIG. 2 and transmits the information to the terminal server 130 to the terminal server 130. Mount on the (130) side.

After performing all of these processes, the drive agent 113 of the terminal client 111 monitors the logical drive list of the client terminal 110 in real time (S307). When an event occurs in the logical drive list in the process of monitoring the logical drive list of the client terminal 110 in real time, the drive agent 113 checks whether the corresponding event is an event in which a new logical drive is mounted (S309). That is, whether the external storage device is newly installed in the client terminal 110 is checked.

When a new storage device is mounted on the client terminal 110, that is, when a new logical drive list is mounted on the client terminal 110, the drive agent 113 collects corresponding logical drive information (S311). The drive agent 113 transmits the collected new logical drive information to the terminal server 130 (S313).

The terminal service execution unit 131 of the terminal server 130 mounts a network drive (that is, a UNC path) with respect to the new logical drive list received from the drive agent 113 of the terminal client 111 and then the The received new logical drive information is transmitted to the virtual drive agent 133 (S315).

The virtual drive agent 133 of the terminal server 130 determines the presence or absence of virtual drive eligibility of the new logical drive list of the received client terminal 110 (S317). For example, it is checked whether the new logical drive list is a drive type set to be assigned as a virtual drive.

If the new logical drive list is a virtual drive target of the virtual drive's eligibility, the virtual drive agent 133 of the terminal server 130 passes the new logical drive information to the virtual drive generation unit 135 and instructs the virtual drive creation. The virtual drive generation unit 135 generates a virtual drive and mounts the terminal in a terminal session (S319).

Accordingly, when a new drive is mounted on the client terminal 110 while accessing the terminal server 130 and using the terminal service, the new drive is also mounted on the terminal server 130 in the same type as the drive type mounted on the client terminal 110. The type is mounted. Therefore, during terminal service, it is possible to run and use an application program for identifying a drive type on a server.

4 is a diagram illustrating a configuration of a terminal service system according to another embodiment of the present invention. Components having the same reference numerals as those of FIG. 1 include all the functions of the components of FIG. 1.

In FIG. 1, the virtual drive agent 133 of the terminal server 130 checks the drive type eligibility of the logical drive list of the client terminal 110 transmitted from the terminal service execution unit 131, and checks the drive type eligibility. If provided, the virtual drive generation unit 135 instructs generation of the virtual drive.

In FIG. 4, the virtual drive agent 520 of the terminal server 510 includes the drive type eligibility of the logical drive list of the client terminal 110 transmitted from the terminal service execution unit 131 and the specific file of the logical drive list. Also check the eligibility for the folder path.

When the logical drive list of the client terminal 110 includes the drive type eligibility, the virtual drive agent 520 determines the eligibility for a specific file folder path of the logical drive list, the file folder check module 521. Instructs the scan for a specific file folder in the logical drive list.

The file folder inspection module 521 transmits a temporary file generation command for a specific file folder of a specific logical drive of the client terminal 110 to the client terminal 110 according to the inspection instruction. For example, the file folder checking module 521 may execute a command to instruct a client to generate a temporary file in the "NPKI" folder (that is, C: \ Program file \ NPKI) of the "Program files" folder of the "C:" drive. Transmission to the terminal 110.

The terminal client 111 of the client terminal 110 generates a temporary file in a specific file folder of a designated logical drive according to a temporary file generation command received from the file folder checking module 521 and returns a success response to the file. Return to the folder check module 521. If there is no specific file folder in the indicated logical drive, the terminal client 111 returns a failure response to the file folder checking module 521.

The virtual drive agent 520 transmits a virtual drive creation command to the virtual drive generator 135 based on the response result received through the file folder check module 521. The virtual drive agent 520 transmits a virtual drive generation command including a specific file folder path to the virtual drive generation unit 135 when the response result is a success response, and file path path when the response result is a failure response. A virtual drive creation command (that is, an instruction to generate only a drive volume item) except for the above is transmitted to the virtual drive generation unit 135. Or, if the response result is a failure response, the virtual drive agent 520 does not perform the virtual drive creation for the logical drive list.

For example, when the "C: \" drive list is received, when the virtual drive agent 520 is configured to determine the eligibility of the "APP1" folder in the "Program files" folder, the file folder check module 521 may be configured. , The temporary file generation command for the folder path "C: \ Program file \ APP1" is transmitted to the terminal client 111. If there is a folder "APP1" in the "C: \ Program file" folder of the client terminal 110, the terminal client 111 generates a temporary file in the folder and returns a success response according to the file folder inspection module 521 ), And the virtual drive agent 520 generates the virtual drive including the path name of the folder "APP1" (that is, "C: \ Program file \ APP1") based on the success response. 135). Accordingly, as shown in FIG. 5, the virtual drive item including the specific file folder path is mounted in the terminal session.

According to the present embodiment as described above, in using an application program that is frequently used by a user and distinguishes the drive type at the time of execution, a virtual drive including a path of a file folder to be used is mounted in a terminal session, whereby a specific folder is manually loaded. It can solve the hassle of finding and accessing.

5 is a flowchart illustrating an example of a virtual drive recognition method in the terminal service system of FIG. 4.

Referring to FIG. 5, the client terminal 110 drives the terminal client 111 according to a terminal connection input of a user (S501). The terminal client 111 accesses the terminal server 510 through the network 150 (S503). In the process of accessing the terminal server 510, the terminal server 510 requests user authentication information from the terminal client 111, and performs user authentication processing using the user authentication information (for example, ID and password) input accordingly. To perform.

When the terminal client 111 of the client terminal 110 is driven and connected as described above, the terminal service execution unit 131 of the terminal server 510 generates an independent terminal session for the client (S505).

On the other hand, the drive agent 113 provided in the terminal client 111 of the client terminal 110 is executed simultaneously with the driving of the terminal client 111 to collect the logical drive information mounted on the client terminal 110 (S507) . The drive agent 113 transmits the collected logical drive information to the terminal server 510 (S509).

The terminal service execution unit 131 of the terminal server 510 uses the logical drive information received from the drive agent 113 of the terminal client 111 to drive a drive item of the client terminal 110 as a network drive (ie, After mounting as a UNC path, the received logical drive information is transmitted to the virtual drive agent 520 (S511).

The virtual drive agent 520 of the terminal server 510 determines whether or not virtual drive eligibility of the received logical drive lists of the client terminal 110 is received (S513). That is, make sure that the logical drive lists are the drive type set to be assigned as the virtual drive and that the drive should be mounted with a specific file folder path.

If the logical drive list is a virtual drive target that is eligible for a virtual drive, that is, a target that needs to be mounted with a specific file folder path, the virtual drive agent 520 of the terminal server 510 may execute the specific file folder of the logical drive. The temporary file generation command for the client terminal 110 is transmitted (S515).

The terminal client 111 of the client terminal 110 checks whether a specific file folder exists in the indicated logical drive and performs a temporary file generation operation according thereto (S517), and generates a temporary file generation result accordingly in the terminal server 510. It transmits to the virtual drive agent 520 (S519). The terminal client 111 transmits a failure response of the temporary file creation when there is no specific file folder, and transmits a success response of temporary file creation when the temporary file creation is completed due to the specific file folder.

The virtual drive agent 520 of the terminal server 510 receives the temporary file generation result and checks whether the temporary file generation is successful (S521). If the temporary file creation result is a failure response, the virtual drive agent 520 does not mount the virtual drive. On the other hand, when the temporary file creation result is a success response, the virtual drive agent 520 instructs the virtual drive generation unit 135 to generate a virtual drive including a specific file folder path. The virtual drive generation unit 135 mounts the virtual drive including the path of the specific file folder in the terminal session (S523).

6 is a flowchart illustrating another example of a virtual drive recognition method in the terminal service system of FIG. 4.

Referring to FIG. 6, the client terminal 110 drives the terminal client 111 according to a terminal connection input of a user (S601). The terminal client 111 accesses the terminal server 510 through the network 150 (S603). In the process of accessing the terminal server 510, the terminal server 510 requests user authentication information from the terminal client 111, and performs user authentication processing using the user authentication information (for example, ID and password) input accordingly. To perform.

When the terminal client 111 of the client terminal 110 is driven and connected as described above, the terminal service execution unit 131 of the terminal server 510 generates an independent terminal session for the corresponding client (S605). After connecting to the terminal server 510, the terminal client 111 collects logical drive information mounted on the client terminal 110 and transmits the information to the terminal server 510 through the process described with reference to FIG. 5. Mount on the (510) side.

After performing all of these processes, the drive agent 113 of the terminal client 111 monitors the logical drive list of the client terminal 110 in real time (S607). When an event occurs in the logical drive list in the process of monitoring the logical drive list of the client terminal 110 in real time, the drive agent 113 checks whether the corresponding event is an event in which a new logical drive is mounted (S609). That is, whether the external storage device is newly installed in the client terminal 110 is checked.

When a new storage device is mounted on the client terminal 110, that is, when a new logical drive list is mounted on the client terminal 110, the drive agent 113 collects the corresponding logical drive information (S611). The drive agent 113 transmits the collected new logical drive information to the terminal server 510 (S613).

The terminal service execution unit 131 of the terminal server 510 mounts a network drive (that is, a UNC path) with respect to a new logical drive list received from the drive agent 113 of the terminal client 111 and then receives the received data. The new logical drive information is transferred to the virtual drive agent 520 (S615).

The virtual drive agent 520 of the terminal server 510 determines whether the virtual drive is eligible for the new logical drive list of the received client terminal 110 (S617). That is, make sure that the new logical drive list is the drive type set to be assigned as the virtual drive and that the drive should be mounted with a specific file folder path.

If the new logical drive list is a virtual drive target that is eligible for a virtual drive, that is, a target that must be mounted with a specific file folder path, then the virtual drive agent 520 of the terminal server 510 is responsible for the specific file of that logical drive. The temporary file generation command for the folder is transmitted to the client terminal 110 (S619).

The terminal client 111 of the client terminal 110 checks whether a specific file folder exists in the indicated logical drive and performs a temporary file generation operation according thereto (S621), and generates a temporary file generation result according to the terminal server 510. The virtual drive agent 520 is transmitted (S623). The terminal client 111 transmits a failure response of the temporary file creation when there is no specific file folder, and transmits a success response of temporary file creation when the temporary file creation is completed due to the specific file folder.

The virtual drive agent 520 of the terminal server 510 receives the temporary file generation result and checks whether the temporary file generation is successful (S625). If the temporary file creation result is a failure response, the virtual drive agent 520 does not mount the virtual drive. On the other hand, if the temporary file generation result is a success response, the virtual drive agent 520 instructs the virtual drive generation unit 135 to generate the virtual drive together with the path of the specific file folder. The virtual drive generation unit 135 mounts the virtual drive including the path of the specific file folder in the terminal session (S627).

According to the present embodiment as described above, in using an application program that is frequently used by a user and distinguishes drive types at run time, a virtual drive including a path of a file folder to be used is mounted in a terminal session, whereby You can solve the hassle of finding and accessing each one.

The process of storing the method according to the present invention on a recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.) can be easily carried out by those skilled in the art. Therefore, it will not be described in detail any more.

While the specification contains many features, such features should not be construed as limiting the scope of the invention or the scope of the claims. Also, the features described in the individual embodiments herein can be implemented in combination in a single embodiment. Conversely, various features described herein in a single embodiment may be implemented in various embodiments individually or in a suitable subcombination.

It is to be understood that, although the operations have been described in a particular order in the figures, it should be understood that such operations are performed in a particular order as shown, or that a series of sequential orders, or all described operations, . In some circumstances, multitasking and parallel processing may be advantageous. In addition, it should be understood that the division of various system components in the above-described embodiments does not require such division in all embodiments. The above-described program components and systems can generally be implemented as a single software product or as a package in multiple software products.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

1 is a diagram showing the configuration of a terminal service system according to an embodiment of the present invention.

FIG. 2 is a flowchart illustrating an example of a virtual drive recognition method in the terminal service system of FIG. 1.

FIG. 3 is a flowchart illustrating another example of a virtual drive recognition method in the terminal service system of FIG. 1.

4 is a diagram illustrating a configuration of a terminal service system according to another embodiment of the present invention.

5 is a flowchart illustrating an example of a virtual drive recognition method in the terminal service system of FIG. 4.

6 is a flowchart illustrating another example of a virtual drive recognition method in the terminal service system of FIG. 4.

Claims (10)

A terminal server device that provides terminal services to terminal clients remotely connected over a network, A terminal service execution unit for providing a terminal service by creating an independent terminal session for the terminal client; A virtual drive agent for checking whether a logical drive list of the client terminal is a drive type to be mounted as a virtual drive based on logical drive information of the client terminal received from the terminal client through the terminal session; And a virtual drive generator configured to generate a virtual drive for the logical drive list and mount the virtual drive in the terminal session when the drive type is to be mounted as a virtual drive. The method of claim 1, The terminal service execution unit, Create a network drive for the logical drive list of the client terminal and mount it on the terminal session, The virtual drive agent, And setting the network drive as a mount point of the virtual drive. delete The method of claim 1, The virtual drive agent, And a file folder checking module for transmitting a temporary file creation command for a specific file folder of a logical drive list to the terminal client and receiving a result of execution accordingly. The virtual drive generation unit, And generating and mounting a virtual drive including an access path of the specific file folder according to the execution result. The method according to any one of claims 1, 2 or 4, The virtual drive agent, And receiving logical drive information from the terminal client in real time whenever a new storage device is installed in the client terminal. In a terminal server, a method of providing a terminal service to a terminal client remotely connected through a network and recognizing a drive of a client terminal, (a) creating an independent terminal session in accordance with the connection of the terminal client; (b) receiving logical drive information of a client terminal from the terminal client via the terminal session; (c) checking whether the logical drive list of the client terminal is a drive type to be mounted as a virtual drive based on the received logical drive information; (d) if the drive type is to be mounted as a virtual drive, creating a virtual drive for the logical drive list and mounting the terminal in the terminal session. The method of claim 6, Before step (c), Generating a network drive for the logical drive list of the client terminal and mounting the network drive to the terminal session; In step (d), And setting the network drive as a mount point of the virtual drive. delete The method of claim 6, In step (c), Sending a temporary file creation command for a specific file folder in a logical drive list to the terminal client; Receiving an execution result according to the temporary file creation command from the terminal client; In step (d), The drive recognition method of the client terminal, characterized in that for generating and mounting a virtual drive including the access path of the specific file folder according to the execution result. The method according to any one of claims 6, 7, or 9, In step (b), And receiving logical drive information from the terminal client in real time whenever a new storage device is installed in the client terminal.

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