KR20030046729A - Computer system and password verification method thereof - Google Patents

Abstract

PURPOSE: A computer system and a method for checking a password thereof are provided to maintain a security of a computer system by inputting a password when a regular state conversion event is generated after entering as an S2 sleeping state or an S3 sleeping state of an ACPI(Advanced Configuration and Power Interface) specification. CONSTITUTION: A password input counter is set as '0'(P10). A password input screen is displayed for requesting that a user inputs a password(P20). If the user does not input a password(P30), the password input screen is maintained. If the user inputs a password, the inputted password is compared with a stored password(P40). If the inputted password is identified with a stored password, a regular state conversion process is executed(P50). If the inputted password is not identified with a stored password, the password input counter is increased as '1'(P60). If the password input counter is '3', an error message is outputted(P80).

Description

How to check computer system and its password {COMPUTER SYSTEM AND PASSWORD VERIFICATION METHOD THEREOF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a computer system and a password verification method thereof, and more particularly, to a computer system supporting a sleeping state of an ACPI specification and a password verification method thereof.

Power consumption is important for computer users, and a way to reduce the power consumption of such a computer is to use power management functions such as APM (Advanced Power Management) and ACPI (Advanced Configuration) to control power by connecting hardware, motherboard and BIOS. and Power Interface).

The power saving mode function supported by the power management function is a method of controlling power according to the system usage environment, and controlling power so that power is supplied only to the required system part according to the state of the system. In general, the power saving mode is performed in several stages, and the power control of the hard disk, the display device, and the memory is controlled according to each stage, so that the system consumes the minimum power without the system being shut down.

The power saving mode function enters the power saving mode by selecting a hot key provided in the portable computer, and returns the system to the normal state by selecting the power saving function release key. In addition, when there is no data input from the input device for a certain time, it is also possible to set to enter the power save mode automatically.

The ACPI specification is a specification of a computer's hardware for standardizing power management by an operating system (OS). The ACPI specification states that the global system state is the working state (G0-Working) in normal operation, the sleep state (G1-Sleeping), which returns to the working state when a wake-up event occurs as a power saving state, and the minimum It is classified into a power-off soft off state (G2-Soft Off) and a power off completely mechanical off state (G3-Mechanical Off). Here, the sleeping state is again classified into an S1 sleeping state, an S2 sleeping state, an S3 sleeping state, and an S4 sleeping state. The G2-Soft Off is also classified as an S5 soft off state, and when a wake up event occurs, it is fully booted.

The S1 sleeping state is an idle state in which all hardware system contexts are maintained. The S2 sleeping state is a global standby state in which the context of the CPU and the cache are not maintained. The S3 sleeping state is a Save to RAM state where only system memory maintains the hardware context. The S4 sleeping state is a Save to Disk state in which a hardware context is not maintained at all and stored on a disk in order to minimize power consumption.

In addition, most computer systems in use today enter a password to limit the use of a user or maintain security, and determine whether to use the system by determining the validity of the input password. To this end, a method of inputting a password at boot time after power is applied is generally used.

By the way, when the state of the computer system enters the S4 sleeping state and then transitions to the normal state, many of the above-described system security methods can be applied through the same process as usual booting, but the S2 sleeping state or the S3 sleeping state can be applied. When a wake-up event occurs after entering, the normal booting process does not proceed, and the system is quickly reused by calling contents stored in the system memory. Can be.

Accordingly, an object of the present invention is to maintain the security of a computer system by inputting a password when a normal state transition event occurs after entering an SPI or S3 sleeping state of an ACPI specification.

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

2 is a flowchart illustrating a normal state transition process of a computer system according to the present invention;

3 is a flowchart illustrating a password verification process when a normal state switching event occurs from an S2 sleeping state or an S3 sleeping state.

* Explanation of symbols for the main parts of the drawings

11 input device 12 CMOS RAM

13: ROMBIOS 14: Display device

According to the present invention, a computer system for supporting a sleeping state of the ACPI specifications, the computer system comprising: a password storage unit for storing a password entered by the user at power-on; When a normal state switching event occurs by the user in any one of the S2 sleeping state and the S3 sleeping state of the sleeping state, the user inputs a password, and the user input password matches the password stored in the password storage unit. It is achieved by a computer system, characterized in that it comprises a system use control unit for controlling to return to the normal state only.

Here, the system usage control unit is effective in terms of efficient utilization of system resources.

In addition, the password storage unit is preferably a CMOS because it can safely store the password even when the power is off.

Meanwhile, according to another aspect of the present invention, there is provided a password verification method of a computer system that supports a sleeping state of an ACPI specification, the method comprising: storing a password input by a user at power on; Detecting a normal state transition event by a user; Determining the sleeping state; Allowing a user to input a password if the sleep state is one of the S2 sleeping state and the S3 sleeping state; It is also achieved by a password confirmation method of a computer system, comprising the step of controlling to return to the normal state only when the input password and the stored password match.

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

1 is a block diagram illustrating a computer system according to the present invention. The computer system according to the present invention includes an input device 11, a CMOS RAM 12, a ROM bios 13, and a display device 14. Has

The ROMBIOS 13 performs basic input / output of a computer system and also performs a power on self test (POST) performed at boot time. During the POST, BIOS checks, CMOS content checks, abnormality checks for various hardware devices such as keyboards, memory, video cards, and initialization of various hardware devices are performed. The ROM bios 13 requests a user to register a password for later use as his password when performing a POST, and accordingly stores the password input by the user in the CMOS 12.

In addition, the ROM bios 13 requests a user to input a password through the display device 14 when a wake-up event occurs from the S2 sleeping state or the S3 sleeping state of the ACPI specification. The ROM bios 13 compares the password inputted from the input device 11 with the password previously stored in the CMOS 12 to determine whether it matches. As a result of determination, it returns to the normal state if a match is found, and if it does not match, a screen is requested to re-enter the password. Let's do it.

2 is a flowchart illustrating a normal state transition process of the computer system according to the present invention.

First, when the computer system is powered on, the POST is performed and the password is stored (S10). If the password is not stored, the password is stored (S11). This storing process is not performed every time the power is turned on, but only when the user wants to register a password for the first time. The stored password is not changed unless the user changes the password.

If the POST is normally performed, the user is in a normal state that can be used (S20).

When the user presses the enter sleeping state hotkey or when not in use for a certain period of time, the computer system enters the sleeping state (S30), and a regular state transition event such as a power button or a keyboard is pressed by the user occurs. It is determined whether or not (S40).

If a regular state transition event occurs, it is checked whether a normal state transition event occurs after entering a certain sleeping state (S50).

Finally, the program branches to the routine to execute the program (S62, S63, S64). Here, the S2, S3 normal state transition process (S62, S63) has a portion for realizing the password confirmation function.

3 is a flowchart illustrating a password verification process when switching from an S2 sleeping state or an S3 sleeping state to a normal state. In the CMOS RAM 12 illustrated in FIG. 1, a password registered in advance is stored.

First, the password input counter PC is set to 0 (P10). The password input counter PC is a variable indicating the number of times a user fails to input the password.

Next, in order to confirm the user, a password input screen for requesting a user to input a password is displayed (P20).

Then, it is determined whether the user's password has been input (P30), and if there is no input, the password input screen is maintained.

Next, if there is a password input, it compares the stored password and the input password and checks whether there is a match (P40). If the stored password and the input password match, the normal state switching process is performed to return to the normal state (P50).

If the stored password and the input password do not match, the password counter PC is increased by one (P60).

Next, it is checked whether the password counter PC is 3 (P70). If the password counter PC is not 3, the password input screen is displayed again. Password counter (PC) is to give a few more input opportunities in case the user incorrectly input by mistake, it is preferable about three times. However, this number may of course vary depending on the computer system.

If the password counter PC is 3, an error message indicating that the password is invalid is output (P80).

When a normal state transition event such as a hot key press or a power switch is pressed in the ACPI specification S2 sleeping state or S3 sleeping state occurs, the existing S2 sleeping state or S3 sleeping state transition process (Resume Process) By adding a password confirmation process, the user can enter a password to secure the computer system.

In the above-described embodiment, when the power is turned on and the first time a POST is required to register a password, the password is stored in the RAM and used as a registration password. However, when there is no process requiring such a password registration during the POST, the S2 sleeping state is described. Alternatively, when a normal state transition event occurs in the S3 sleeping state, a password may be requested for the first time, stored in the system, and then used as a registered password.

In the above-described embodiment, the system use control unit has been described as a ROMBIOS as an example, but it is of course possible to use a separate application program.

In addition, in the above-described embodiment, the CMOS storage as the password storage unit has been described as an example, but a storage device such as a flash memory may be used.

As described above, according to the present invention, when a normal state transition event occurs after entering the S2 sleeping state or the S3 sleeping state of the ACPI specification, a password may be input to maintain the security of the computer system.

Claims (4)

In a computer system that supports the sleeping state of the ACPI specification, A password storage unit for storing a password input by the user at power on; When a normal state switching event occurs by the user in any one of the S2 sleeping state and the S3 sleeping state of the sleeping state, the user inputs a password, and the user input password matches the password stored in the password storage unit. And a system usage control unit for controlling to return to a normal state only when the system is in a circumstance. The method of claim 1, And the system usage control unit is a ROMBIOS. The method according to claim 1 or 2, And said password storage unit is a CMOS. In the password confirmation method of a computer system that supports the sleeping state of the ACPI specification, Storing the password input by the user at power on; Detecting a normal state transition event by a user; Determining the sleeping state; Allowing a user to input a password if the sleep state is one of the S2 sleeping state and the S3 sleeping state; And controlling to return to a normal state only when the input password and the stored password coincide with each other.