KR102079131B1 - The computer recovery system - Google Patents

Abstract

According to the present invention, a computer restoration system comprises: a computer having a hard disc (HDD) or a solid state drive (SSD) formatted by a GUID partition table (GPT) method, which is mounted thereon, and booted in a unified extensible firmware interface (UEFI) method; a computer recovery module for an internal storage stored inside an EFI system partition provided in the hard disc or SSD, having an efi extension, and restoring an operating system (OS) having errors in a current computer or caused by bad sectors in the hard disc or SSD; and a hardware recognition converting module allowing the computer recovery module for an internal storage installed in the hard disc or SSD to be recognized as hardware on a boot manager provided in an UEFI bios setting window. When an OS installed in a computer is damaged and the computer recovery module for an internal storage recognized as hardware is selected as a boot loader in the boot manager provided in an UEFI bios setting window, a computer restoration program is operated to restore the damaged OS automatically when the computer having the damaged OS is booted.

Description

The computer recovery system

The present invention relates to a computer recovery system, and more particularly, when the computer operating system that is currently being used is damaged or when the hard disk is damaged or when an error occurs in the operating system due to an unknown cause. It relates to a computer recovery system that can restore the system to its initial state or return to a previous point in time when it was operating normally.

Typically, a Personal Computer (PC) vendor or manufacturer sells a PC to a consumer and provides a warranty of one year or more.

In general, any maintenance that occurs during the warranty period is resolved by a maintenance company operated or commissioned by the PC vendor or manufacturer.

At this time, consumers who are not familiar with computer malfunctions or problems will contact a maintenance company and request a business trip service when a minor problem occurs, such as a faulty Windows configuration or a hardware connector connection error.

This service is basically a time and cost for the maintenance personnel travel to the destination, a time and cost for the maintenance personnel arriving at the destination to determine the cause of the failure, and a time and cost for troubleshooting This time and expense has been passed on to the PC vendor or manufacturer, and has been pointed out as a problem of PC sales.

In addition, as the PC has undergone a number of technological advances, the configuration of the Windows operating system has been greatly increased, which complicates the maintenance process for the PC.

Typically, when the computer system is powered up, the motherboard's built-in firmware is executed.

On the other hand, the conventional BIOS boot method is that when the first PC is powered on and the BIOS reads the MBR (Master Boot Record) area of the boot disk (hard disk), the boot code inside the MBR is executed to call the boot sector of the active partition. do.

Next, a code inside the boot sector executes a boot loader, and the boot loader loads an operating system (OS).

Existing recovery system requires the bootloader, but the recovery system can be called.

Accordingly, when a virus is infiltrated into the computer or the MBR region is damaged, not only the booting of the computer is impossible but also a call to the computer recovery system is not possible.

On the other hand, a third-party method for recovering a computer in the event of a failure on a UEFI booted computer is to boot the operating system.If the EFI file is read and a function key is pressed just before the operating system is loaded, the recovery system starts and recovers the computer. Done.

However, this method also uses UEFI BIOS, but since the structure itself follows the existing legacy BIOS method, there is a problem that the recovery system cannot be operated when the hard disk and the MBR are damaged.

On the other hand, the prior art of the present invention has been filed and published "automatic backup and recovery integrated operating method of the system / data" of Patent Publication No. "10-2006-0058296", the automatic backup and recovery of the system / data integrated operation A method for disaster recovery of a computer system, the method comprising: inspecting a computer, installing a window module and a DOS module so that system recovery is performed in window mode and DOS mode, and automatically partitioning a partition for securing a backup area; Setting a data and system backup policy; And backing up the computer normal state and data to a partitioned area according to a set policy, and recovering the system and data with the computer normal state and data backed up in the event of a failure.

Republic of Korea Patent Publication No. "10-2006-0058296" (2006.05.30) Korea Patent Registration No. "10-1920867" (2018.11.21)

In order to solve the above problems, the present invention immediately recognizes a computer recovery program as a hardware in UEFI BIOS mode immediately before reading an operating system booting EFI file from a UEFI booting computer, and then recovers the computer recovery program when the computer is booted. It is an object of the present invention to provide a computer recovery system in which a damaged computer can be recovered normally even though the MBR area is damaged so that it can be executed.

The computer recovery system according to the present invention for achieving the above object is equipped with a hard disk (HDD) or SSD (Solid State Drive) formatted in a GUID Partition Table (GPT) method and booted in a Unified Extensible Firmware Interface (UEFI) method ( Booting computer; It is stored inside the EFI system partition inside the hard disk or SSD, has an efi extension, and an error occurs in the current computer operating system (OS) or the bad sector of the hard disk or SSD. A computer recovery module for internal storage for normally recovering the compiled OS; And a hardware-aware conversion module that allows the internal storage computer recovery module installed in the hard disk or SSD to be recognized in the form of hardware in a boot manager provided in the UEFI BIOS setup window, when the OS installed in the computer is damaged. If you select the internal storage computer recovery module, which is recognized as a hardware type in the boot manager in the BIOS setup window, as the bootloader, the computer recovery program is executed when the OS is booted and the damaged OS is automatically Is restored.

The computer recovery system according to the present invention having such a configuration enters the computer UEFI BIOS setup window when the OS is installed in the computer or the hard disk or SSD is damaged so that the computer does not boot, and then reads at the highest priority at boot. If you select the hardware as an internal storage computer recovery module with efi extension, the computer enters computer recovery mode and then recovers the damaged OS normally.

Accordingly, the computer recovery system according to the present invention can recover a computer normally even when a virus does not penetrate the computer or the MBR area of the hard disk does not boot or the computer operating system is damaged.

1 is a control block diagram of the present invention;
2 is a control block diagram for an externally mounted computer recovery module,
3 is a diagram illustrating a computer recovery program displayed on a computer monitor screen during computer booting using the present invention;
4 is a diagram illustrating a monitor screen when the user backup file generation unit is selected in FIG. 3;
FIG. 5 is a diagram illustrating a monitor screen when the user recovery unit is selected in FIG. 3;
Figure 6 is a diagram of a computer recovery program with an efi extension recognized as hardware in the boot manager menu as a bootloader when the UEFI boot settings window is opened.

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

As shown in FIG. 1, the computer recovery system according to the present invention is equipped with a hard disk 2 (HDD) or SSD (Solid State Drive) formatted in a GUID Partition Table (GPT) method, and unified UEFI (Unified). A computer 1 booted by Extensible Firmware Interface); It is stored inside the EFI system partition provided inside the hard disk 2 or SSD 3 and has an efi extension, and an error occurs in the current computer (Operation System) OS or the hard disk 2 or SSD A computer recovery module (4) for internal storage for normally recovering an OS in which an error has occurred due to the bad sector of (3); And a hardware-aware conversion module (5) which allows the internal storage computer recovery module (4) installed in the hard disk (2) or SSD (3) to be recognized in the form of hardware by a boot manager provided in a UEFI BIOS setup window. When the OS installed in the computer 1 is damaged, the internal storage computer recovery module 4 recognized as a hardware in the boot manager provided in the UEFI BIOS setup window is selected as a bootloader. When the OS is booted on the damaged computer 1, a computer recovery program is started to automatically repair the damaged OS.

The present invention stores the computer 1 recovery file with the efi extension in the EFI system partition and allows the computer 1 recovery file to be recognized as bootable hardware in the UEFI BIOS setup window.

The Unified Extensible Firmware Interface (UEFI) replaces the BIOS Firmware Interface and Extensible Firmware Interface (EFI) 1.10 specifications.

When the computer 1 is running, the UEFI controls the boot process of the PC, and then transfers control authority to a window or an operating system other than the window.

Today, more than 140 leading technology companies, including AMD, AMI, Apple, Dell, HP, IBM, Insyde, Intel, Lenovo, Microsoft, and Phoenix Technologies, participate in the Unified EFI Forum.

The advantage of the UEFI is that first, the computer 1 boot and restart time is fast.

Second, a secure boot is provided that restricts untrusted code from running before the operating system is loaded and a security feature that provides a computer 1 factory encrypted drive.

Third, compatibility with Legacy Bios.

Some UEFI-based PCs are equipped with a compatibility support module (CSM) that emulates the old legacy bios to provide end users with greater flexibility and compatibility.

Fourth, the UEFI supports a UEFI firmware driver, an application program, and an option ROM.

In the UEFI booting method, the computer 1 is booted by reading a (file name.efi) file stored directly inside the hard disk 2 or SSD 3 without going through a master boot recorder (MBR) and a boot sector (Boot Sector). Let's do it.

Legacy BIOS must go through the path of BIOS-> MBR area-> Boot Sector-> Boot Manager to run Boot Manager, but the UEFI boot The method is bootable using only one file (filename.efi) stored in the EFI system partition.

Unlike legacy BIOSs, UEFI does not depend on the MBR and boot sector, but instead directly uses the boot manager defined by UEFI.

In addition, there are dual Primary GPT and Secondary GPT which store operating system booting efi file and computer (1) recovery efi file at the beginning and end of GPT formatted disk. This has the advantage of being high.

If the internal storage computer recovery module 4 recognized as hardware in the UEFI BIOS setup window is selected as a boot loader when the OS installed in the computer 1 is damaged, the internal storage computer recovery module 4 After booting the computer (1) in the Windows PE mode that can be connected to the Internet even in a damaged state, and proceeds to repair the computer (1).

In addition, the present invention is connected to the USB connector of the computer (1) and is recognized as an external storage device in the UEFI BIOS setup window, a computer (1) recovery program having an efi extension in the storage memory is stored in the computer in the UEFI BIOS setup window (1) If the device is set as a device that reads at the highest priority at boot time, the computer 1 further includes an externally mounted computer recovery module (6) which boots the computer (1) to Windows PE mode and then proceeds to repair the computer (1). do.

The externally mounted computer recovery module 6 includes a USB connection connector 61 connected to a USB port of the computer 1, as shown in FIG. an SD memory 62 in which a computer 1 recovery program having an efi extension is stored; And a data transfer controller 63 for transferring data between the USB connection connector 61 and the SD memory 62.

The internal storage computer recovery module 4 backs up the operating system and data currently stored in the computer 1 as an image file, as shown in FIG. 3, to the hard disk 2 (HDD). ) And a user backup file generator 41 for storing in the SSD 3; A user recovery unit 42 for recovering the current computer 1 from a backup image file stored in the hard disk 2 (HDD) or SSD (3); A factory initialization unit 43 for initializing the hard disk 2 (HDD) or the SSD 3 to a factory shipment state; And a remote support request unit 44 for requesting the computer recovery server 7 to remotely support the computer 1 recovery operation.

As illustrated in FIG. 4, the user backup file generator 41 sets a storage path for storing a backup image file that is backed up to the hard disk 2 or the SSD 3. It further comprises a setting unit 411.

As illustrated in FIG. 5, the user recovery unit 42 may select one of the image files for restoring the computer 1 stored in the hard disk 2 or the SSD 3. 1) The apparatus further includes a backup file selection unit 421 for restoring the computer 1 to a restoration image file.

The hardware-aware conversion module 5 stores the computer 1 recovery program having the efi extension as a bootloader in the NVRAM of the BCD storage.

The hardware-aware conversion module 5 causes the computer 1 recovery program to be displayed as the computer 1 recovery boot loader in the boot loader list when the computer 1 is turned on and enters the UEFI BIOS setup window.

The BCD store (BCDstore) is a storage space for storing a boot environment setting file of a boot manager (Bootmgr) provided in the Windows operating system.

The user turns off the computer 1 in case of abnormality of the computer 1, enters the UEFI BIOS setup window as shown in FIG. 6, and then selects the computer recovery boot loader from the boot manager list. Can be recovered.

The computer recovery system according to the present invention having such a configuration is a UEFI BIOS of the computer 1 when the OS installed in the computer 1 is damaged or the hard disk 2 or the SSD 3 is damaged and the computer 1 does not boot. After entering the settings window and selecting the hardware that reads at the highest priority at boot time as the internal storage computer recovery module (4) with efi extension, the computer (1) enters the computer recovery mode and then repairs the damaged OS. You will be restored normally.

Therefore, the repair system of the computer 1 according to the present invention does not boot or damage the computer 1 operating system due to a virus invading the computer 1 or damage of the MBR area in the hard disk 2. In this case, the computer 1 can be restored normally.

1. computer 2. hard disk
3. SSD 4. Computer Recovery Module for Internal Storage
41. User backup file generation unit 411. Backup file path setting unit
42. User Recovery Section 421. Backup File Selection Section
43. Factory Reset 44. Remote Assistance Request
5. Hardware-Aware Conversion Module 6. Externally Mounted Computer Recovery Module
61.USB Connection Connector 62.SD Memory
63. Data Transfer Controller

Claims (3)

Computer (1) equipped with hard disk (2) (HDD) or SSD (3) (Solid State Drive) formatted with GUID Partition Table (GPT) method and booted with Unified Extensible Firmware Interface (UEFI) method ;
It is stored inside the EFI system partition provided inside the hard disk 2 or SSD 3 and has an efi extension, and an error occurs in the current computer (Operation System) OS or the hard disk 2 or SSD A computer recovery module (4) for internal storage for normally recovering an OS in which an error has occurred due to the bad sector of (3);
And a hardware-aware conversion module (5) for allowing the internal storage computer recovery module (4) installed in the hard disk (2) or SSD (3) to be recognized as a hardware in a boot manager provided in a UEFI BIOS setup window. Consist of
When the OS installed in the computer 1 is damaged, the internal storage computer recovery module 4 recognized as a hardware in the boot manager provided in the UEFI BIOS setup window is selected as a bootloader. A computer recovery system in which a computer recovery program is run on boot from a damaged computer (1) to automatically repair a damaged OS.
According to claim 1,
When the OS installed in the computer 1 is damaged, the internal storage computer recovery module 4 recognized as hardware in the UEFI BIOS setup window is selected as a boot loader.
The internal computer recovery module (4) is characterized in that the computer (1) booting the computer (1) in the Windows PE mode that can be connected to the Internet even when the OS is damaged, and then proceeds to repair the computer (1).
According to claim 1,
The internal storage computer recovery module 4 backs up the operating system and data currently stored in the computer 1 to an image file and stores them in the hard disk 2 (HDD) or SSD (3). A user backup file generator 41;
A user recovery unit 42 for recovering the current computer 1 from a backup image file stored in the hard disk 2 (HDD) or SSD (3);
A factory initialization unit 43 for initializing the hard disk 2 (HDD) or the SSD 3 to a factory shipment state;
And a remote assistance request unit 44 for requesting remote assistance for the computer 1 repair operation to the computer recovery server 7,
The user backup file generator 41 further includes a backup file path setting unit 411 for setting a storage path for storing an image file backed up on the hard disk 2 or the SSD 3. ,
The user recovery unit 42 may select any one of the image files for restoring the computer 1 stored in the hard disk 2 or the SSD 3 so as to restore the selected computer 1 as an image file for restoring the computer. (1) and a backup file selection unit (421) for restoring.

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