KR100823293B1 - Computer system and control method thereof - Google Patents

Abstract

The present invention relates to a control method of a computer system, comprising: a maximum value address setting mode for setting such that only a region before a boundary address is accessed based on a predetermined boundary address; A hard disk supporting an address offset mode for setting only the area after the boundary address to be accessed; The boundary address setting unit for setting the boundary address, and the area before the boundary address and the area after the boundary address when the maximum value address setting mode is set by detecting whether the maximum address setting mode is set when the computer is booted. And a controller for presenting a boot area selection screen to select any one of the screens, and switching to the address offset mode when the area after the border address is selected. As a result, it is possible to store and use different operating systems and to block access of other users to the hard disk area allocated to the user.

Description

Computer system and control method

1 is a control block diagram of a computer system according to the present invention;

2 is a partitioned view of a hard disk;

3 is a boot area selection screen according to selection of the maximum value setting mode and the address offset mode of FIG.

4 is a control flowchart of a computer system according to the present invention.

* Explanation of symbols for the main parts of the drawings

1: Key input unit 3: Control unit

4 hard disk 5 display unit

21: Boundary Address

20a, 23a: booting area A 20b, 24b: booting area B

30: boot area selection screen

      BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a computer system, and more particularly, to a computer system having a hard disk that can be divided into two areas inaccessible to each other and a control method thereof.

The computer system includes a hardware device such as a CPU (central processing unit), a memory device, an input / output device, a ROM BIOS having a BIOS program for checking the state of the input / output device when the computer is booted, and a bootstrap loader of the BIOS program. It consists of an operating system that is loaded and interfaces with the user and each computer device.

As a secondary memory device of a computer system, a large-capacity hard disk is used. The hard disk can be divided into a plurality of areas by using an operating system utility, FDISK, to allocate a portion of the hard disk to a plurality of users. . Accordingly, by installing a plurality of operating systems for each partitioned area of the hard disk, it is possible to use multiple operating systems. When the user boots into any operating system, only the partition in which the operating system is stored is used.

Recently, the SET MAX ADDRESS function that sets the hard disk boundary address to be accessible only from the boot sector to the boundary address, and the area before the boundary address set by SET MAX ADDRESS are offset and the subsequent area is accessed from the boundary address. Hard disks have been developed with an ADDRESS OFFSET MODE selection function to enable them.

However, when using a hard disk partitioned using FDISK, the partition of the hard disk is displayed as the maximum capacity in the system information of the operating system.However, using FDISK allows the remaining partitions to be accessed to protect user data from other users' access. Can not. In the present invention, a conventional problem is solved by using a hard disk providing a maximum address address mode and an address offset mode.

Accordingly, an object of the present invention is to provide a computer system and a method of controlling the same, which can store and use different operating systems and can block other users' access to the hard disk area allocated to the user.

According to the present invention, in the computer system, there is provided a maximum value address setting mode for setting such that only a region before the boundary address is accessed on the basis of a predetermined boundary address, having a plurality of sectors to which address values are sequentially assigned; A hard disk supporting an address offset mode for setting only the area after the boundary address to be accessed; The boundary address setting unit for setting the boundary address, and the area before the boundary address and the area after the boundary address when the maximum value address setting mode is set by detecting whether the maximum address setting mode is set when the computer is booted. And a controller for presenting a boot area selection screen to select any one of the devices and switching to the address offset mode when the area after the border address is selected.

Here, when the region after the boundary address is selected, the sector having the boundary address is converted into a boot sector, and the controller may boot the OS based on the boot sector. In addition, when the area after the border address is selected, the area before the border address is offset and the area after the border address is changed into an accessible state to block access to the area before the border address.

Here, the control unit may be configured as a BIOS program stored in the biosrom to select a boot area when the computer is booted.

The border address setting unit is provided in the BIOS setup screen displayed by the BIOS program. The border address setting screen is a border address setting screen for setting the border address by presenting address information according to the capacity of the hard disk. It is possible to easily select the size of.

On the other hand, when the area before the border address is selected, the controller is preferably booted based on the boot sector of the area before the border address.

The boot area selection screen may include a password input screen for inputting a password when booting into one of the area before the border address and the area after the border address, thereby preventing other users from booting into their area.

On the other hand, according to another aspect of the present invention, the above object is a control method of a computer system provided with a hard disk having a plurality of sectors sequentially assigned an address value, the step of turning on the power, and the predetermined Detecting whether the maximum value address mode is set so that only the previous area of the boundary address is accessed; and selecting one of the area before the boundary address and the area after the boundary address when the maximum address mode is set; Presenting a boot area selection screen; if an area after the border address is selected, offsetting the area before the border address and switching to the address offset mode so that the area after the border address is accessed; Bootsec the boundary address when switching And converting to, based on the boot information stored in the boundary address is achieved by the control of the computer system comprises a boot progress.

The method may further include allowing each user to input a password when booting into one of the area before the border address and the area after the border address.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a control block diagram of a computer system according to the present invention, and FIG. 2 is a partition diagram of a hard disk. As shown in the figure, the present invention provides a computer system for displaying a BIOS setup screen when a key input unit (1) consisting of a keyboard for inputting a user's selection and the 'DEL' key of the keyboard is selected during computer booting. And a control unit 3 including a display unit 5, a CMOS RAM storing change information of a hardware device set by a user on a BIOS setup screen, and a ROM BIOS provided with a BIOS program for changing the BIOS setup. Here, the BIOS setup screen includes a boundary address setting unit for setting the boundary address. The border address setting unit is a border address setting screen for the user to set the border address. The controller 3 divides the hard disk 4 according to the setting change of the hard disk selected through the key input unit in the BIOS setup screen, changes the setting, and stores the changed information in the CMOS RAM 2.

The hard disk 4 is partitioned into a plurality of sectors, and the initial sector is set to have a sequential number of addresses starting with the address '0'. The hard disk to which the present invention is applied has a maximum address setting mode and an address offset mode. Therefore, when the user selects the partition size of the hard disk to be used by the user using the SET MAX ADRESS mode, the boundary address added by the user selected partition size is set from the address 'O'. The user can access only sectors having the address before the boundary address by the maximum address setting mode. Checking this through FDISK, a utility provided by the operating system, only the hard disk area partitioned by the boundary address is displayed. Here, the set boundary address is stored in the CMOS RAM 2 by the control unit 3 which is a BIOS program.

In addition, since the hard disk of the present invention supports the address offset mode, when the user selects the address offset mode in the BIOS setup screen, the area before the border address set in the maximum address setting mode is offset and the area after the border address is offset. Only becomes accessible. Then, in the address offset mode, the hard disk 4 resets the address of the region after the boundary address and provides it to the BIOS program (control unit) 3. When the address is reset, the boundary address is changed to address '0' to be converted into a boot sector, and the remaining sectors are changed to sequential addresses accordingly.

Since the hard disk 4 is divided into two areas through the maximum value address setting mode and the address offset mode, different operating systems can be stored in each area. At this time, the boot information of the operating system stored in each area is stored in the boot sector having the address '0' and the sector having the boundary address when the operating system is installed.

Therefore, in the maximum address setting mode, the BIOS program reads the operating system information from the boot sector having the initial address '0' and proceeds to boot, and in the sector having the boundary address reset to the boot sector in the address offset mode. Proceed with booting by reading boot information.

As shown in FIG. 2, in the maximum address setting mode, the hard disk is blocked because the area 'B' 20b after the boundary address is offset and access is blocked, and the area before the boundary address 'A' 20a is accessible. Do. When the address offset mode is set in this state, the area before the boundary address 'A' 23a is offset and the area 'B' 23b after the boundary address is converted into an accessible state.

3 is a boot area selection screen according to selection of the maximum value setting mode and the address offset mode of FIG. 2. When the maximum address setting mode is set in the BIOS setup screen, the boot area selection menu where the area before the boundary address is designated as 'A' booting area 20a and the area after the boundary address is designated as 'B' booting area 20b during computer booting. Is displayed on the screen of the display unit 5.

Hereinafter, a flowchart of a control method of a computer system according to the present invention will be described with reference to FIGS. 1 and 3. As shown in FIG. 4, when the computer system is powered on (S1), the BIOS program checks whether the hard disk 4 is set to the maximum address mode in the CMOS RAM 2 (S3), When the value address mode is set, the boot area selection screen 30 shown in FIG. 3 is presented (S5). When the area after the selected boundary address is to be used in setting the maximum address mode, that is, when the user wants to switch to the address offset mode, the B area boot 31 of FIG. 3 is selected (S7). If the B area boot 31 is selected, a password input window (not shown) is displayed on the display screen 5 to perform a password input process (S9). The BIOS program switches the hard disk 23 to the address offset mode when the passwords match, so that the area before the border address 'A' is offset and the area 'B' after the border address is switched to the access state (S11). Since the hard disk converts a sector having a boundary address into a boot sector and provides it to the BIOS program (control unit) 3, the BIOS program (control unit) 3 reads boot information of the operating system stored in the boundary address and proceeds with booting ( S15).

On the other hand, when the maximum address mode is not set in the hard disk 4 or when the user selects the 'A' boot area before the boundary address area, booting of the operating system is performed based on the boot information stored in the initial boot sector of the hard disk. Proceed. At this time, when the area before the boundary address 'A' booting area is selected, the password input process S8 is preceded.

In this case, if the maximum address mode is not set, the entire area of the hard disk becomes accessible, but if the 'A' booting area before the border address is selected, only the 'A' area is accessible and the area after the bordering address' When the 'B' boot area is selected, only the 'B' area is accessible.

By such a configuration, a single hard disk can be divided into two areas, and a different operating system can be installed in each area, and it can be set to block access to other areas by using a maximum address setting mode and an address offset mode. As a result, it is possible to prepare for a case where data is lost by blocking another user's access to the user's data area.

As described above, according to the present invention, there is provided a computer system capable of storing and using different operating systems and preventing other users from accessing the hard disk area allocated to the user and a control method thereof.

Claims (9)

 In computer systems,  A maximum address setting mode for setting only the area before the boundary address to be accessed based on a predetermined boundary address, and an address for setting so that only the area after the boundary address is accessed based on a predetermined boundary address A hard disk supporting an offset mode;  A border address setting unit for setting the border address;  When booting the computer, if the maximum address setting mode is set and the maximum address setting mode is set, a boot area selection screen is presented to select one of the area before the border address and the area after the border address. And a control unit which switches to the address offset mode when the area after the boundary address is selected. The method of claim 1, And when the region after the boundary address is selected, a sector having the boundary address is changed to a boot sector, and the control unit performs booting based on the boot sector. The method of claim 1, And when the area after the border address is selected, the area before the border address is offset and the area after the border address is switched to an accessible state. The method of claim 2, The control unit is a computer system, characterized in that the BIOS program stored in the BIOS. The method of claim 4, wherein And the boundary address setting unit is provided in a BIOS setup screen displayed by the BIOS program and is a boundary address setting screen for setting the boundary address by presenting address information according to the capacity of the hard disk. The method according to claim 4 or 5, And when the area before the border address is selected, the controller performs booting based on a boot sector of the area before the border address.       The method of claim 6,       The boot area selection screen may include a password input screen for inputting a password when booting into any one of the area before the border address and the area after the border address. In the control method of a computer system provided with a hard disk having a plurality of sectors sequentially assigned an address value, Turning on the power, Detecting whether the maximum value address mode is set such that only the previous area of a predetermined boundary address is accessed in the hard disk; Presenting a boot area selection screen for selecting one of the area before the border address and the area after the border address when the maximum address mode is set; Offsetting the area before the border address and switching to the address offset mode so that the area after the border address is accessed when the area after the border address is selected; Converting the boundary address into a boot sector when the address offset mode is switched; And booting based on the boot information stored in the boundary address. The method of claim 8, And inputting a password at each of booting into one of the area before the border address and the area after the border address.

Images